Conference Schedule
Registration
Thursday
19 Nov.
Friday
20 Nov.
Saturday
21 Nov.
Sunday
22 Nov.
Monday
23 Nov.
14:00–17:001
09:00–17:002,3
08:00–12:004
12:00–19:005
08:30–18:005
08:30–17:005
Venue
1. Room CD 634, The Hong Kong Polytechnic
University
2. Foyer, Concord Room, Renaissance Hong Kong
Harbor View Hotel (Pre-registration only)
3. Foyer, Room S221, HKCEC
4. Foyer, Theatre 1, HKCEC
5. Room N201, HKCEC
Visit to The Photonics Research Centre
14:00–17:00
(every hour)
The Hong Kong Polytechnic University
Special Workshop
09:00–15:15
Jinan University, Meeting Room, 4th Floor, Alumni
Bldg.
09:00–18:30
Concord Room II, Renaissance Hong Kong Harbor
View Hotel, and Rooms S226-S228, HKCEC
Symposium
09:00–18:30
Concord Room I, Renaissance Hong Kong Harbor
View Hotel
Industry Exhibition
13:00–18:00
Opening and Plenary Session
08:30–12:40
Technical sessions
14:00–18:00
Industry Forum
Welcome Reception
Poster Session
08:30–18:00
Room N201, HKCEC
Theatre 1, HKCEC
08:30–18:00
08:30–16:00
Rooms N202-N212, HKCEC
Room N207, HKCEC
14:30–18:00
Room N201, HKCEC
18:00–19:00
Room N201, HKCEC
10:00–11:30
Best Student Paper Competition
Session
IPOC Special Tutorial
08:30–17:00
08:30–12:30
Rooms N204/205 & N211, HKCEC
Room N204/205, HKCEC
14:30–16:00
Postdeadline Papers
16:30–18:30
Rooms N202/N203 and N211/N212, HKCEC
Banquet and Closing Ceremony
19:00–21:00
Chancellor Room, HKCEC
Note:
All times reflect Hong Kong time. Please check with conference organizer during conference for schedule changes and updates
Sunday, 22 November
Sunday, 22 November
Workshops
Asia Communications and Photonics Conference (ACP) 2015
International Conference on Information Photonics and Optical Communications (IPOC) 2015
Co-located and Jointly Organized
19–23 November, 2015
Hong Kong Convention and Exhibition Centre, Hong Kong
Table of Contents
Welcome Message . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Committees . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
General Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Conference Highlights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Special Workshop . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
Symposium and Workshops . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
IPOC Special Tutorial . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
Industry Forum . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
Conference Direcory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
Conference Schedule . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Agenda of Sessions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
ACP Technical Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
Key to Authors and Presiders . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 88
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 1
2015ACP Program.indd 1
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Welcome to Hong Kong and to the Asia Communications and
Photonics Conference
It is a great pleasure to invite you to participate in the Asia Communications and Photonics Conference (ACP) 2015 and share the
latest news in communications and photonics science, technology
and innovations from leading companies, universities and research
laboratories throughout the world. ACP is now one of the largest
conferences in the Asia-Pacific region on optical communication,
photonics and relevant technologies. ACP has been held annually
tracing back to 2001 and jointly sponsored by OSA, SPIE, IEEE
Photonics Society, COS and CIC. This year ACP is collocated and
jointly organized with International Conference on Information
Photonics and Optical Communications (IPOC), another major
conference in the area.
The ACP technical conference features a full suite of plenary,
invited, and contributed talks given by international academic and
industrial researchers who are leaders in their respective fields. This
year’s conference will feature the following topics: Optoelectronic
Integration, Devices and Materials; Novel Fibers and Fiber-based
Devices; Optical Transmission Systems, Subsystems, and Technologies; Network Architectures, Management, and Applications;
Biophotonics and Optical Sensors; Optical Signal Processing and
Microwave Photonics. The conference will also include a wide
spectrum of workshops, and an industrial forum on Towards Ultrahigh Speed Metro and Data Center Networks: Demand, Challenge
& Technology in the afternoon of Sunday, 22 November. With a
conference program of broad scope and of the highest technical
quality, ACP provides an ideal venue to keep up with new research directions and an opportunity to meet and interact with the
researchers who are leading these advances. We have over 550
papers scheduled, including 106 invited and nine tutorial presentations made by many of the world’s most prominent researchers
from academia and industry. We thank all the contributors and
authors for making ACP a truly unique, outstanding global event.
Our conference highlight is the Plenary Session scheduled on the
morning of Saturday, 21 November. Four outstanding, distinguished speakers will give presentations: Professor Ernst H. K.
Stelzer of the Goethe Universität, Frankfurt am Main, Germany will
present on Light Sheet-based Fluorescence Microscopy (LSFM,
SPIM, DSLM) - a Paradigm Shift in Modern Light Microscopy; Professor Vahala, Jenkins Professor and Professor of Applied Physics at
Caltech, will give a talk on The Technology and Science of Optical
Micro-resonators: Integrated Optical Clocks to Phonon Lasers;
Dr. Frank J. Effenberger ,Vice President and Fellow, Fixed Access
Network Laboratory, Futurewei Technologies, Inc. will present on
The Influence of Industrial Trends on Optical Access; Professor
Peter Krüger from the School of Physics and Astronomy, University
Park, The University of Nottingham, United Kingdom will discuss
Harnessing Quantum Gases with Light and Magnetic Fields: Atomic
Quantum Sensors.
In addition to the regular technical sessions, eight workshops and a
special symposium on Novel Optical Networks in 5G Era organized
by Huawei Technologies Co. Ltd. will also be held featuring over
fifty invited speakers. These pre-conference workshops will be
held on Friday, 20 November starting from 09:00. In addition, a
special workshop will be organized on Thursday, 19 November at
Jinan University. These workshops will also be held free of charge
to conference registrants. We would like to thank the workshop
organizers and speakers for the excellent program.
Best Student Paper Awards sponsored by IEEE Photonics Society
will be given to students who are first authors and presenters of
exceptional contributed talks. The selection will be made by the
subcommittees during the conference. Awards will be presented
during the Banquet on 23 November. The poster-only session
will be held on Sunday morning from 10:00–11:30. This is a good
chance for you to meet with the authors and discuss technical
issues in-depth. Two best poster awards sponsored by OSA and
selected by conference delegates will be given as well. This year,
we will also award three best paper awards sponsored by Luster
LightTech Corp. They will be presented during the Banquet.
University, Hong Kong SAR); Kun Xu (Beijing University of Posts and
Telecommunications, China); Pierpaolo Ghiggino (Talentour, Italy);
Naoya Wada (NICT, Japan) and the Subcommittee Chairs who have
worked persistently throughout the whole year to invite speakers,
solicit and review papers, organize the technical sessions which
results in the excellent technical program. We also thank the staff
and volunteers of the professional societies from OSA, SPIE, IEEE
Photonics Society, COS and CIC for organizing and sponsoring the
event.
Sincerely,
Chao Lu
The Hong Kong Polytechnic
University, Hong Kong SAR
General Chair
Jie Luo
State Key Laboratory of
Optical Fiber and Cable
Manufacture Technology,
China
General Co-Chair
Yuefeng Ji
Beijing University of Posts and
Telecommunications, China
General Co-Chair
Ken-Ichi Kitayama
Osaka University, Japan
General Co-Chair
In addition to the technical program, we have prepared a rich social
program to facilitate meeting and networking with colleagues from
all over the world. A conference reception will be held in the evening on 21 November. On the evening of Monday, 23 November,
we will hold a Banquet for conference registrants in the Chancellor
Room of the Hong Kong Convention and Exhibition Centre.
It is an enormous task to organize a conference and it is impossible to succeed without the dedicated efforts of many supporters
and volunteers. We are indebted to the entire Technical Program
Committee led by Hwayaw Tam (The Hong Kong Polytechnic
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 2
2015ACP Program.indd 2
11/5/15 3:01 PM
Committees
Honorary Chairs
General Chairs
Chao Lu, The Hong Kong Polytechnic University, Hong Kong
SAR
Jie Luo, State Key Laboratory of Optical Fiber and Cable
Manufacture Technology, China
Yuefeng Ji, Beijing University of Posts and
Telecommunications, China
Ken-Ichi Kitayama, Osaka University, Japan
Dr. Xiang Liu, Huawei Technologies, USA
Prof. Chao Lu, The Hong Kong Polytechnic University, China
Prof. Qingming Luo, Huazhong University of Science and
Technology, China
Prof. Qian Mao, Wuhan Research Institute of Posts and
Telecommunications, China
Naomi Chavez, OSA
Prof. Xiaomin Ren, Beijing University of Posts and
Telecommunications, China
Prof. Ping Perry Shum, Nanyang Technological University,
Singapore
Prof. Yikai Su, Shanghai Jiao Tong University, China
Prof. Brian J. Thomas, SPIE
Prof. Bingkun Zhou, Tsinghua University, China
Technical Program Committee Chairs:
Local Arrangement Committee
Alexander Ping-Kong Wai, The Hong Kong Polytechnic
University, Hong Kong SAR
Xiaomin Ren, Beijing University of Posts and
Telecommunications, China
Hwa Yaw Tam, The Hong Kong Polytechnic University, Hong
Kong SAR
Kun Xu, Beijing University of Posts and Telecommunications,
China
Pierpaolo Ghiggino, Talentour, Italy
Naoya Wada, NICT, Japan
Steering Committee
Chair:
Dr. Ming-Jun Li, Corning Inc., USA
Members:
Yasuhiko Arakawa, University of Tokyo, Japan
Prof. Christine L. Bluhm, IEEE Photonics Society
Prof. Connie J. Chang-Hasnain, University of California,
Berkeley, USA
Prof. Arthur Chiou, National Yang-Ming University, Taiwan,
China
Prof. Yun C. Chung, Korea Advanced Institute of Science
and Technology, Korea
Prof. Sailing He, Zhejiang University, China; KTH, Sweden
Prof. Chennupati Jagadish, Australian National University,
Australia
Prof. Thomas L. Koch, University of Arizona, USA
Dr. Ming-Jun Li, Corning Inc., USA
Prof. Xingde Li, Johns Hopkins University, USA
Chair:
Dr. Feng Li, The Hong Kong Polytechnic University, Hong
Kong SAR
Members:
Dr. Xian Zhou, The Hong Kong Polytechnic University, Hong
Kong SAR/University of Science and Technology Bejing
Dr. Kangping Zhong, The Hong Kong Polytechnic
University, Hong Kong SAR
Dr. Jinhui Yuan, The Hong Kong Polytechnic University,
Hong Kong SAR/Bejing University of Posts and
Telecommunications
Dr. Liang Wang, The Hong Kong Polytechnic University,
Hong Kong SAR
Subcommittees
Track 1: Optoelectronic Integration, Devices and
Materials
Chair:
Hon Ki Tsang, The Chinese University of Hong Kong, Hong
Kong SAR
Co-Chairs:
C-Lin Pan, National Tsing-Hua University, Taiwan
Kevin A. Williams, Eindhoven University, Netherlands
Members:
Andrew Poon, Hong Kong University of Science and
Technology, Hong Kong SAR
Danxia Xu, National Research Council, Canada
Zhiping Zhou, Peking University, China
Y. Nakano, Tokyo University, Japan
Joyce Poon, University of Toronto, Canada
Cun-Zheng Ning, Arizona State University, USA
Shoou-Jinn Chang, National Cheng Kung University, Taiwan
Hao-chung (Henry) Ku, National Chiao Tung University,
Taiwan
Ray-Hua Horng, National Chung Hsing University, Taiwan
Tetsuya Kawanishi, Waseda University, Japan
Track 2: Novel Fibers and Fiber-based Devices
Chair:
Limin Tong, Zhejiang University, China
Co-Chairs:
Kenneth Wong, The University of Hong Kong, Hong Kong
SAR
Aping Zhang, The Hong Kong Polytechnic University, Hong
Kong SAR
Members
C.Y. Chung, Gwangju Institute of Science and Technology,
Korea
Gang-Ding Peng, The University of New South Wales,
Australia
Morten Ibsen, University of Southampton, UK
Kevin P. Chen, University of Pittsburg, USA
Xinliang Zhang, Huazhong University of Science and
Technology, China
Yunjiang Rao, University of Electronic Science and
Technology, China
Gilberto Brambilla, University of Southampton, UK
Baiou Guan, Jinan University, China
Xueming Liu, Xi’an Institute of Optics and Precision
Mechanics, China
Alexandre Kudlinski, University Lille 1, France
Baojun Li, Sun Yat-sen University, China
Akira Shirakawa, University of Electro-Communications,
Japan
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 3
2015ACP Program.indd 3
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Track 3: Optical Transmission Systems, Subsystems, and
Technologies
Chair:
Alan Pak Tao Lau, The Hong Kong Polytechnic University,
Hong Kong SAR
Co-Chairs:
Neda Cvijetic, NEC Labs America, USA
Gabriella Bosco, Politecnico di Torino, Italy
Yuki Yoshida, Osaka University, Japan
Members:
Naoto Yoshimoto, Chitose Institute of Science and
Technology, Japan
Sander Jansen, ADVA, Germany
Antonio Teixeira, DETI, Instituto de Telecomunicacoes,
Portugal
Philipp Schindler, Infinera, USA
Yoshinari Awaji, NICT, Japan
Toshihiko Hirooka, Tohoku University, Japan
Shoichiro Oda, Fujitsu Lab, Japan
Zhaohui Li, Jinan University, China
Changyuan Yu, National University of Singapore, Singapore
Georgios Zervas, University of Bristol, UK
Jin-xing Cai, TE SubCom, USA
Paolo Serena, University of Parma, Italy
William Shieh, University of Melbourne, Australia
Kenichi Uto, Mitsubishi Electric Corporation, Japan
Track 4: Network Architectures, Management, and
Applications
Chair:
Gangxiang Shen, Soochow University, China
Co-Chairs:
Lena Wosinska, KTH, Sweden
Calvin CK Chan, Chinese University of Hong Kong, Hong
Kong SAR
Jie Zhang, Beijing University of Posts and
Telecommunications, China
Members:
Carmen Mas Machuca, Technical University Munich (TUM),
Germany
Carla Raffaelli, University of Bologna (UNIBO), Italy
Anna Tzanakaki, University of Bristol, UK
Paolo Monti, KTH, Sweden
Wende Zhong, NTU, Singapore
Ori Gerstel, Sedona Systems, Israel
Bartlomiej Kozicki, Alcatel-Lucent Bell Labs, Belgium
Ioannis Tomokos, Athens Information Technology Center
(AIT), Greece
Hua Nan, Tsinghua University, China
Weiqiang Sun, Shanghai Jiao Tong University, China
Zuqing Zhu, University of Science and Technology, China
Huiying Xu, Huawei Technology, China
Yiran Ma, China Telecom, China
Lei Guo, Northeast University, China
Massimo Tornatore, Politecnico di Milano, Italy
Darli Mello, University of Campinas (Unicamp), Brazil
Xueqing Wei, Fiberhome, China
Track 5: Biophotonics and Optical Sensors
Chair:
Mike Somekh, The Hong Kong Polytechnic University, Hong
Kong SAR
Co-Chair:
Aaron Ho, Chinese University of Hong Kong, Hong Kong
SAR
Track 6: Optical Signal Processing and Microwave
Photonics
Chair:
Chester Shu, Chinese University of Hong Kong, Hong Kong
SAR
Co-Chairs:
Sai Tak Chu, City University of Hong Kong, Hong Kong SAR
Alessia Pasquazi, University of Sussex, UK
Jianping Yao, University of Ottawa, Canada
Members:
Shilong Pan, Nanjing University of Aeronautics and
Astronautics, China
Hao Chi, Zhejiang University, China
Gong-Ru Lin, National Taiwan University, Taiwan
Xiaoke Yi, University of Sydney, Australia
David Moss, RMIT, Australia
Francesca Parmigiani, University of Southampton, UK
Chao Wang, University of Kent, UK
Ping Piu Kuo, UC San Diego, USA
Mable Fok, University of Georgia, USA
Guifang Li, University of Florida, USA
Hung Nguyen Tan, AIST, Japan
Guo-Wei Lu, Tokai University, Japan
Ju-Han Lee, University of Seoul, Korea
Lawerence Chen, McGill University, Canada
Jose Azana, INRS-EMT, Canada
Members:
Dong Hyun Kim, Yonsei University, Korea
Andrei Kabashin, Polytechnique Montreal, Canada
Melissa Mather, The University of Nottingham, UK
Kevin K. Tsia, The University of Hong Kong, Hong Kong SAR
Klaus Suhling, King’s College London, UK
Wei R. Chen, University of Central Oklahoma, USA
Junle Qu, Shenzhen University, China
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 4
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General Information
Conference Venue: Hong Kong Convention and Exhibition
Centre (HKCEC), Hong Kong
Address: No. 1 Expo Drive, Wanchai, Hong Kong
connected to two world class hotels: The Grand Hyatt Hong
Kong and the Renaissance Harbour View Hotel.
Registration
Registration Hours and Location:
Thursday,
19 November
Room CD634, The
Hong Kong Polytechnic
University
09:00–17:00
Friday,
20 November
Foyer, Concord Room,
Renaissance Hong Kong
Harbor View Hotel
(Preregistration only)
and Foyer, Room S221,
HKCEC (On-site and
preregistration)
Poster Board Size – 2.1m (Height) X 0.95m (Length)
Hong Kong Convention
and Exhibition Centre
(HKCEC)
The ACP Exhibition is open to all attendees.
Accessibility
• By Airport Express & MTR - from Airport Station to Hong
Kong Station and switch to Wanchai Station (estimate 40
min)
• By Taxi – estimate 40 min
The conference will take place in the Hong Kong Convention
and Exhibition Centre which is a major landmark located in
the heart of Hong Kong on Victoria Harbour. Its vast curtain
of glass and 40,000 square-metre aluminum roof is sculpted
to echo a seabird soaring in flight. Internationally known as
HKCEC, this world-class convention and exhibition centre
was voted Best Convention and Exhibition Centre in Asia for
the ninth time by industry awards in 2012. The HKCEC is
Saturday,
21 November
08:00–12:00
Foyer, Theatre 1, HKCEC
12:00–18:00
Room N201, HKCEC
08:30–18:00
Sunday,
22 November
Room N201, HKCEC
08:30–18:00
Monday,
23 November,
Room N201, HKCEC
If you are arriving from the airport, you can:
• By Bus – take route no. A11 or E11 to Wanchai and
change to route no. 40M to the HKCEC (estimate 80 min)
Authors should prepare their poster before the poster session starts. The poster must not exceed the boundaries of
the display board and A0 size is recommended. Authors are
required to be standing by their poster for the duration of
their allocated session to answer questions and further discuss their work with attendees. No shows will be reported
to Conference management and these papers will not be
published.
14:00–17:00
08:00–18:00
The Hong Kong Convention & Exhibition Centre (HKCEC)
is easily accessible from MTR (metro system in Hong Kong)
Wanchai Station, or Wanchai Ferry Pier. It is about a 10 minute walk from the MTR station or ferry pier.
Poster Preparation
Speaker Preparation
All oral presenters should check in at the corresponding session room at least thirty minutes prior to their scheduled talk
to upload and check their presentation. No shows of the
oral presentation will be reported to Conference management and these papers will not be published.
Set-up Time – 09:30 on Sunday, 22 November
Tear-down Time – 18:00 on Sunday, 22 November
Exhibition
Location: N201, HKCEC
Exhibition Hours:
13:00–18:00
Saturday, 21 November
08:30–18:00
Sunday, 22 November
08:30–17:00
Monday, 23 November
Conference Materials
ACP 2015 Technical Digest will be provided in a USB drive
and not available in print form. The ACP 2015 Technical
Digest material is composed of the 3-page summaries of
invited and accepted contributed papers. The Technical
Digest material is included with a technical conference registration and can be found in your registration bag.
The Digest will be available on OSA Publishing’s Digital
Library (https://www.osapublishing.org/) and IEEE Xplore
Digital Library (http://www.ieee.org/web/publications/
xplore/) after the conference. IEEE Xplore Digital Library and
OSA Publishing’s Digital Library are archived and indexed by
INSPEC R and EI Compendex, where it will be available to
the international technical community.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 5
2015ACP Program.indd 5
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Social Activities
Welcome Reception
The ACP 2015 welcome reception will be held on 21
November, 2015.
Location: HKCEC, Room N201
Time: 18:00–19:00, Saturday, 21 November, 2015
Conference Banquet and Closing Ceremony
The ACP 2015 Banquet and Closing Ceremony will be held
in the Chancellor Room of the Hong Kong Convention and
Exhibition Centre on 23 November. Chinese food will be
served. The Best Student Paper Awards, Luster Best Paper
Award and Best Poster Award will be presented at the banquet.
Location: Chancellor Room, HKCEC
Time: 19:00–21:00, Monday, 23 November, 2015
Visit Program
A visit program will be organized to the Photonics
Research Centre, The Hong Kong Polytechnic University on
19 November, 2015
Location: Please gather at CD634, The Hong Kong
Polytechnic University, Hung Hom, Kowloon
Time: There will be three sessions at 14:00, 15:00 and 16:00,
Thursday, 19 November, 2015
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 6
2015ACP Program.indd 6
11/5/15 3:01 PM
Conference Highlights
Plenary Session
Time: 8:30–10:30, Saturday, 21 November
Venue: Theatre 1, HKCEC
Topic: Light Sheet-based Fluorescence Microscopy
(LSFM, SPIM, DSLM) - a paradigm shift in modern
light microscopy
08:50–09:40
Ernst H. K. Stelzer
Goethe Universität, Frankfurt am Main,
Germany
Biograph: Ernst H.K. Stelzer is the Professor for Physical Biology and Advanced
Light Microscopy at the Goethe Universität (Frankfurt am Main, Germany) since
March 2011. He concentrates his efforts
on applications and further developments of advanced light microscopies in the modern life
sciences, working on various aspects and applications of
three-dimensional cell biology, lateral root development in
Arabidopsis thaliana and the embryogenesis of Tribolium
castaneum. New instruments allow scientists to observe and
manipulate biological specimens efficiently, with high precision and high spatio-temporal resolution. From 1987-2011,
he was a Scientific Group Leader at the European Molecular
Biology Laboratory (EMBL, Heidelberg, Germany), most
lately in the Cell Biology and Biophysics Unit. Ernst Stelzer
has been working in physics, optics, biophysics, cell biology,
molecular biology, plant biology and developmental biology
for more than 30 years. He has contributed to conventional
fluorescence microscopy, confocal fluorescence microscopy,
4Pi- and theta-microscopy, optical tweezers and levitation,
laser ablation and light sheet-based fluorescence microscopy. His publications continue to influence optics, biophysics, cell biology, developmental biology and plant biology. In
more general terms, he is particularly interested in developing three-dimensional microscopies that enable observations under close-to-natural conditions as a function of time.
Many of his former Diploma and Ph.D. students as well as
Postdocs continue to pursue successful academic careers of
their own. By now, he has published more than 250 papers
and was granted several patents that secure the intellectual
property of at least three commercially available optical
instruments. He has received several prices and honors. In
January 2015 light sheet-based fluorescence microscopy was
honored as “Method of the Year 2014” by Nature Methods.
Topic: Harnessing Quantum Gases with Light and
Magnetic Fields: Atomic Quantum Sensors
09:40–10:30
Professor Peter Krüger
School of Physics and Astronomy, University Park, The University of Nottingham,
United Kingdom
Biograph: Professor Peter Kruger holds
the Chair of Cold Atom Physics and
Quantum Optics at the University of Nottingham, UK. He is the scientific leader
of the Midlands Ultracold Atom Research
Centre and the UK National Quantum Technology Hub in
Sensors and Metrology at Nottingham. His research focuses
on the microscopic control and manipulation of ultracold
atomic gases with optical and magnetic fields. After pioneering work on the development of atom chips, i.e. integrated
devices for atomic quantum gases in analogy to the ubiquitous electronic microchips, his current interest continues to
cover a broad spectrum ranging from fundamental physics
questions to translational applied technology. Key contributions to the understanding of complex quantum systems
include thermalization in one-dimensional, and phase
transitions in two-dimensional systems. To facilitate technology development, he has introduced schemes for coherent
atom-optical devices, such as waveguides, beam splitters
and interferometers, as well as compact cold atom sources
integrating photonic, electronic, and atomic components.
Current quantum sensor work includes optical magnetometry, magnetic microscopy, and accelerometers (gravity and
rotation sensors). Kruger’s body of work has been published
in a wide range of topical and interdisciplinary journals, has
received 4,000 citations and he has received awards from
the Humboldt foundation and the European Union.
Topic: The Technology and Science of Optical Microresonators: Integrated Optical Clocks to Phonon
Lasers
11:00–11:50
Professor Vahala
Jenkins Professor and Professor of
Applied Physics at Caltech, USA
Biograph: Professor Vahala is the Jenkins
Professor and Professor of Applied Physics at Caltech. His research group has
pioneered a class of optical resonators
that hold the record for highest optical
Q on a semiconductor chip. They have
applied these devices to study a wide range of nonlinear
phenomena including the first demonstration of parametric oscillation in a micro cavity, now the basis for frequency
micro combs. His research in this subject also led to the
demonstration of dynamic backaction, a long-anticipated
interaction of mechanics and optics mediated by radiation
pressure that is responsible for opto-mechanical cooling and
recent realizations of mechanical amplification by stimulated
phonon emission. Professor Vahala was involved in the early
effort to develop quantum-well lasers for optical communications and received the IEEE Sarnoff Award for his research
on quantum-well laser dynamics. He has also received an
Alexander von Humboldt Award for his work on ultra-highQ optical microcavities and is a fellow of the IEEE and the
Optical Society of America.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 7
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Topic: The Influence of Industrial Trends on Optical
Access
Luster LightTech Corp.
Best Paper Awards
11:50–12:40
ACP 2015 is pleased to announce that this year’s Best Paper
Awards on ACP will be sponsored by Luster LightTech Corp:
Dr. Frank J. Effenberger
Vice President and Fellow, Fixed
Access Network Laboratory, Futurewei
Technologies, Inc., USA
Biograph: After completing his doctoral
work in 1995, Dr. Effenberger worked at
Bellcore, where he analyzed all types of
access network technologies, especially
passive optical networks. He witnessed
the early development of the FSAN initiative and the APON
standard. In 2000, he moved to Quantum Bridge Communications, where he managed the system engineering group.
This work supported the development and standardization of advanced optical access systems based on B-PON
and G-PON technologies. In 2006, he became Director of
FTTx in the advanced technology department of Futurewei
Technologies USA. He remains heavily involved in standards
work, and in 2008, he became the chairman of ITU-T Q2/15.
He and his team work on forward-looking fiber and copper
access technologies, including the 10G EPON, XG-PON,
and 40G-PON. Notably, his team supported the world’s first
trials of XG-PON and 40G-PON. In 2011, he was named as
Huawei Fellow, and in 2012 was promoted to VP of access
research. In 2015, he was named as a Fellow of both the
OSA and the IEEE. He holds 60 US patents.
Best Paper Awards, 3 recipients, 1000 US dollars for each
The selection will be made by the TPC chairs and subcommittee chairs during the conference. The awards will be
granted at the conference banquet in the evening of Monday, 23 November.
Poster Session
Time: 10:00–11:30, Sunday, 22 November
Venue: Room N201, HKCEC
Over 150 posters will be displayed during ACP 2015. The
poster session is designed to provide an opportunity for
selected papers to be presented in greater visual detail
and facilitate vivid discussions with attendees. Authors will
remain in the vicinity of the bulletin board for the duration of
the session to answer questions.
OSA
Best Poster Awards
ACP 2015 is pleased to announce that this year’s Best Poster
Awards on ACP will be sponsored by OSA:
Best Poster Awards, 2 recipients, 500 US dollars for each
The selection will be based on the voting of conference
delegates. The awards will be granted at the conference
banquet in the evening of Monday, 23 November.
IEEE Photonics Society
Best Student Paper Awards
Workshops
Time: 9:00–15:15, Thursday, 19 November
Venue: Meeting Room, 4th Floor, Alumni Building, Jinan
University, Guangzhou, China
Topic: Special Workshop on Next Generation Optical
Interconnection Techniques
Time: 09:00–18:30, Friday, 20 November
Venue: Renaissance Hotel Conference Rooms and
S226-S228, HKCEC
There are eight workshops and one symposium going to be
held during ACP 2015. The topics cover the most interesting areas of photonics and communications. More than 50
speakers from both academia and industry will give their
talks regarding the cutting edge technologies and advances.
• Symposium on Novel Optical Networks in 5G Era
• Workshop 1: Recent Advances in Optical Fiber and
Specialty Fibers
• Workshop 2: Recent Advances in Optical Fiber Sensors
• Workshop 3: Closing the Gap to Shannon Limit: What
is Next for Nonlinearity Compensation in Optical
Communication?
• Workshop 4: Short Reach Optical Communication
Systems
• Workshop 5: Silicon Photonics - Technology Challenges
and Applications
• Workshop 6: Nanophotonics and Related Technologies
(NART)
ACP 2015 is pleased to announce that this year’s Best
Student Paper Awards on ACP will be sponsored by IEEE
Photonics Society:
• Workshop 7: What Are the Next Spotlights for Optical
and Radio Frequency Orbital Angular Momentum Beams?
Best Student Paper Awards, 10 recipients, 500 US dollars
for each
• Workshop 8: Recent Advances in Space-Division
Multiplexing (SDM)
To be eligible for the award, a student must be the first
author of the paper and declare his/her student candidature
during online submission; and the student must give the presentation at the conference by himself/herself. The selection
will be made by the subcommittees during the conference.
The awards will be granted at the conference banquet in the
evening of Monday, 23 November.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 8
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Special Workshop
Industry Forum
Topic: Workshop on Next Generation Optical Interconnection Techniques
Topic: Towards Ultra-high Speed Metro and Data Center
Networks: Demand, Challenge &Technology
Time: 09:00–15:15, 19 November
Venue: Jinan University, Meeting Room, 4th Floor, Alumni
Building
Time: 14:30–18:00, November 22, 2015
Place: Room N207, HKCEC
IPOC Special Tutorial
Time: 14:30–16:00, 22 November
Venue: Room N204/205, HKCEC
ACP 2015’s Industry Forum will present you the latest advances in the field of ultra-high speed metro and data center
networks by distinguished speakers from the industry. The
forum will cover products, technologies and applications
from both technical and business perspectives.
Xiaomin Ren, Beijing University of Posts and Telecommunications, will discuss the Latest Novel Understandings of Electron States Architectures in Crystalline Materials and Likely of
the Whole Physics.
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Special Workshop
Topic: Workshop on Next Generation Optical
Inter-Connection Techniques
Time: 09:00–15:15, 19 November, 2015
Venue: Jinan University, Meeting Room, 4th Floor, Alumni
Building, Huangpu Road West 601, Guangzhou, China
Organizers:
Zhaohui Li, Jinan University, Guangzhou, China
Weiping Liu, Jinan University, Guangzhou, China
Chao Lu, The Hong Kong Polytechnic University, Hong Kong
SAR
Session I:
Session Chair: Xiangjun Xin, Beijing University of Posts and
Telecommunications, Beijing, China
09:00–9:30 Siyuan Yu, Sun Yat–sen University, China
A review of recent progress in OAM communications and
related technologies
09:30–10:00 Chongjin Xie, Alibaba, inc.
Optical interconnect technologies in datacenters
Session II
Session Chair: Zhaohui Li, Jinan University, Guangzhou,
China
14:00–14:30 LiangChuan Li, Huawei Co. Ltd.
Non–Orthogonal Optical Transmission WDM Systems
14:30–15:00 Ming Li, Institute of Semiconductors, CAS
All–optical integrated analog signal processing
15:00–15:30 Yange Liu, Nankai University
Mode excitation and conversion in few–mode fibers and
their applications
15:30–15:45 Tea Break
15:45–16:15 Zuqing Zhu, University of Science and
Technology, China
Service Provisioning in Multi–Domain SD–EONs
16:15–16:45 Yu Yu, Huazhong University of Science &
Technology
Large bandwidth and high power Germanium photodetector
16:45–15:15 Ning Liu, Huawei Co. Ltd.
The Trend of Next Generation Metro Optical Network
10:00–10:15 Tea Break
10:15–10:45 Po Dong, Alcatel–Bell Labs
Silicon photonic integrated circuits
10:45–11:15 Xiang Zhou, Google Inc.
DATA center optics: requirements and challenges
11:15–11:45 Yikai Su, Shanghai Jiaotong University
Silicon Photonic Devices for Signal Modulation, Filtering and
Analog Processing
11:45–14:00 Tea Break
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 10
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Symposium and Workshops
Symposium on Novel Optical Networks in
5G Era
Time: 09:00–17:00, 20 November
Venue: Concord Room I, Renaissance Harbour View Hotel
Organizers:
Deng Ning, Huawei Technologies Co. Ltd
Introduction:
Detail Program
Morning session: Next generation WDM architecture and
‘all-optical’ network
09:30–12:00 Invited presentations, Q&A
• Current optical transport industry status and outlook from
consulting firm
Workshop 1: Recent Advances in Optical Fibers
and Specialty Fibers
Time: 9:00–12:00, 20 November
Venue: Concord Room II, Renaissance Harbour View Hotel
Organizers:
• Operator’s view on all-optical / core networking
• System vendor’s view on all-optical / core networking
The 1-day symposium is expected to have a morning session and afternoon session, focusing on presentations and
discussions on novel optical networks and technologies for
‘all-optical’ (e.g. novel ROADM/WSS/OXC technologies and
networks; what will be the practical next-generation ‘alloptical’ networking; enhanced packet-optical networks, etc.),
4G/5G transport (e.g. C-RAN, front/back hauling, etc.) and
DCI (e.g. DC intra/inter connect architecture/technology,
low-cost DWDM and transmission, etc.). The symposium will
comprise invited talks, Q&A discussion, panel discussion,
networking event, etc.
The invited speakers include experts from telecom operators, internet service providers, universities and institutes,
system and device/chip vendors and industry consulting
firm. ACP and Huawei cordially invite experts from these
organizations to present views, join in the discussion, and
together shape the future of the industry.
14:00–16:30 Invited presentations, Q&A
Tea break
• All-optical or future networking architecture &
technologies (1)
• All-optical or future networking architecture &
technologies (2)
12:00–12:30 Panel discussion
12:30–14:00 Lunch break
Afternoon session: Novel optical networks and
technologies for emerging 5G and DCI
• Operator’s view on optical transport for 5G and/or DCI
• System vendor’s view on 5G / DCI transport
• Component vendor’s view on 5G / DCI transport
Tea break
• Optical technologies for 5G/DCI/short-reach (1)
• Optical technologies for 5G/DCI/short-reach (2)
16:30–17:00 Panel discussion
Liangming Xiong
State Key Laboratory of
Optical Fiber and Cable
Manufacture Technology,
YOFC, Wuhan, China
Kin-Seng Chiang
Department of Electronic
Engineering, City University
of Hong Kong
Introduction:
In recent years, much research effort has been devoted to
the development of new optical fibers for further enhancing the quality and the capacity of optical transmission, in
particular, ultra-low loss fibers, large-effective-area fibers,
few-mode fibers, and multicore fibers. Meanwhile, many
specialty fibers based on new materials and new structures
have been developed for specific applications in a wide
range of areas, such as metrology, sensing, lasers, and optical signal processing. This workshop provides an overview of
some of these developments by putting together a series of
presentations given by experts from industry and academia.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 11
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Speakers:
Opening Address: Prof. Jie Luo, Director of State Key
Laboratory of Optical Fiber and Cable Manufacture
Technology and the CTO of YOFC
Dr. Yiran Ma, Beijing Research Institute, China Telecom Co.
Ltd. China
Topic: Advanced fiber helps optical transmission to go faster
and longer
Dr. Nicolas Fontaine, Bell Labs, Alcatel-Lucent, USA
Topic: Space-division Multiplexing in Multi-Mode Fibers
Prof. Ming Tang, Wuhan National Laboratory for
Optoelectronics & school of Optical and electronic
information, Huazhong University of Science and
Technology, China.
Topic: Multicore fiber based SDM technology for
transmission, signal processing and sensing applications
Dr. Ming-Leung Vincent Tse, Photonics Research Center,
Department of Electrical Engineering, The Hong Kong
Polytechnic University, Hung Hom, Kowloon, Hong Kong,
China
Topic: Special Structured Optical Fibers for Sensing
Applications
Dr. Erik Schartner, the Institute for Photonics and Advanced
Sensing (IPAS), The University of Adelaide, Australia
Topic: Optical fibers for chemical and medical sensing
applications
Dr. Darren D. Hudson, Centre for Ultrahigh bandwidth
Devices for Optical Systems (CUDOS), Institute of Photonics
and Optical Science (IPOS), School of Physics, University of
Sydney, Australia
Topic: Mode-locked fiber lasers in the mid-IR
Dr. Edson Haruhico Sekiya and Prof. Kazuya Saito, Frontier
Materials Laboratory, Toyota Technological Institute
Topic: Investigation of NIR emission in Bi, Sb, Pb and Sn
doped silica glasses aiming optical fiber amplifier and laser
Prof. Meisong Liao, R&D Center of High Power Laser
Component, Shanghai Institute of optics and Fine
Mechanics, Chinese Academy of Sciences, China
Topic: Highly nonlinear photonic crystal fibers for
supercontinuum generation in given band
Dr. Shangran Xie, Max Planck Institute for the Science of
Light
Topic: Applications of fiber “nanospike” on low-threshold
supercontinuum generation and optomechanical selfstabilization
Speakers:
Workshop 2: Recent Advances in Optical Fibre
Sensors
Byoungho Lee, Seoul National University, Korea
Topic: Plasmonics and Metasurfaces for Potential Sensor
Applications
Time: 13:45–17:00, 20 November
Venue: Concord Room II, Renaissance Harbour View Hotel
Organizers:
Kazuo Hotate, University of Tokyo, Japan
Topic: Distributed Strain and/or Temperature Sensing based
on Fiber Brillouin Optical Correlation Domain Techniques Performances and Applications
Robert McLaughlin, University of Western Australia,
Australia
Topic: A Microscope-in-a-needle: Fibre-optic Probes for
Biomedical Applications
Anna G. Mignani, CNR-IFAC, Sesto F.no (FI), Italy
Topic: Raman Spectroscopy for Food Fingerprinting
Hwa-Yaw TAM, The Hong Kong Polytechnic University,
Hong Kong
Topic: Smart Railway Monitoring Systems based on Fibre
Bragg Grating Sensing Networks
Wei Jin
Depart of Electrical
Engineering, The Hong
Kong Polytechnic University,
Hong Kong SAR, China
John Canning
School of Chemistry, The
University of Sydney,
Australia
Limin Tong, Zhejiang University, China
Topic: Nanofibre Optical Sensors
Introduction:
After nearly four decades of research, optical fibre sensor
technologies are gradually becoming mature. Some sensors
have successfully moved out from the laboratory to realworld applications while novel concepts and techniques are
still been researched for creating new types of sensors and
improving the performance of existing sensors. This workshop invites some of the world-leading experts to talk about
the state-of-the-art and future trends in some selected areas
of research and development, including distributed Brillouin
sensors with millimetre spatial resolution, fibre Bragg grating
sensors for smart railways, Raman spectroscopy for food
fingerprinting, optical fibre OCT probes for biomedical applications, and sensors based on plasmons and micro/nano
fibre. The workshop will include presentation and discussion
sessions and we welcome people of relevant interest to attend and join the discussions.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 12
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Workshop 3: Closing the Gap to Shannon limit:
What is Next for Nonlinearity Compensation in
Optical Communication?
Time: 09:00–12:00, 20 November
Venue: Room S227, HKCEC
Organizers:
achievable gain is < 2 dB for multi-channel scenario. In this
workshop, we will look into the most recent efforts on nonlinearity mitigation. Furthermore, we consider novel methods
for nonlinearity compensation including inverse scattering
theory and Bayesian tracking, and discuss how they can
be adopted for the nonlinearity mitigation in optical communication. The idea is to combine ideas concepts different fields such as information theory, machine learning and
statistical control theory.
Workshop 4: Short Reach Optical Communication
Systems
Time: 13:30–17:00, 20 November
Venue: Room S227, HKCEC
Organizers:
Speakers:
Dr. Andre Richter, VPI Photonics, Germany
Topic: Integrated simulation and design environment for
SDM applications
Sergei Popov
Royal Institute of Technology
KTH, Sweden
Darko Zibar
DTU Fotonik, Technical
University of Denmark
Prof. Gunnar Jacobsen, Swedish ICT – Acreo, Sweden
Topic: Impact of Phase Noise in High Capacity Optical
Coherent Transmission Systems
Dr. Marco Secondini, Scuola Superiore Sant Anna, Italy
Topic: What is the Shannon Limit in Fiber Optical
Communications?
Dr. Pawel Rosa, Institute of Optics, IO-CSIC, Spain
Topic: Advanced Raman Architecture for Nonlinear
Compensation Using Optical Phase Conjugation
Prof. Polina Bayvel, University College of London, UK
Topic: Overcoming fibre nonlinearities to enhance the
achievable transmission rates in optical communication
systems
Lech Wosinski,
Royal Institute of Technology
KTH, Sweden
Introduction:
This workshop will focus on the challenges and recent
advances in nonlinearity compensation. The focus will also
be on the actual benefits, of various compensation schemes,
from a transponder manufacturer’s point of view. Currently,
commercially available high-speed optical communication systems are employing advanced modulation formats
(e.g. 16QAM), digital coherent detection for impairment
compensation, and signal demodulation. Several methods for performing nonlinearity compensation including
digital backpropagation, phase conjugation and nonlinear
post-equalization have been demonstrated. However, the
Zhaohui Li
Jinan University, China
Prof. Alan P. T. Lau, The Hong Kong Polytechnic University,
Hong Kong SAR, China
Topic: Communications Through Nonlinear Fiber-Optic
Channels Using Nonlinear Frequency Division Multiplexing
Kangping Zhong
The Hong Kong Polytechnic
University, Hong Kong SAR,
China
Introduction:
With the rapidly increasing data traffic in data centers, mobile front-haul/back-haul and high speed optical access networking and other short reach optical applications, current
optical interconnect systems is expected to be insufficient
in the near future. Some research show that the growing
bandwidth demand from optical interconnects will be much
more than that from the long-haul optical transmission in the
near future. However, compared to long-haul optical transmission systems, optical interconnects are more sensitivity
to system cost, components footprint and power consumption. In this workshop, the invited speakers will present the
state-of-art and future trends in visible light communications
(VLC) and short reach MMF/SMF transmission systems in
many aspects including advanced low cost transmitter and
receiver, advanced modulation formats, WDM/Polarization
multiplexing techniques, digital signal processing (DSP) techniques, coherent detection/direct detection. Challenges in
future optical short reach systems will also be discussed. We
welcome people of relevant interest to attend and join the
workshop.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 13
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Speakers:
Dr. Jian Zhao, Tyndall National Institute and University
College Cork, Ireland
Topic: Advanced formats and subsystems for short-reach
applications
Prof. Lilin Yi, Shanghai Jiaotong University, Shanghai, China
Topic: Recent research progress on NG-EPON
Workshop 5: Silicon Photonics – Technology
Challenges and Applications
Time: 09:00–13:00, 20 November
Venue: Room S228, HKCEC
Prof. Ming Tang, Huazhong University of Science &
Technology, China
Topic: Coding and modulation technique in DDO-OFDM
based short-medium optical interconnect
Prof. S.J. Ben Yoo, University of California at Davis
Topic: Heterogeneous 2D/3D integration for future
microsystems
Dr. Po Dong, Alcatel Lucent
Topic: Silicon photonics for high-capacity advanced
modulation formats
Organizers:
Dr. Xiang Liu, Huawei, USA
Topic: Advanced modulation and detection schemes for
next-generation PON
Dr. Kangping Zhong, The Hong Kong Polytechnic
University, Hong Kong
Topic: PAM-4 for Short Reach Optical Communication
Systems
Speakers:
Dr. Laurent Vivien, University of Paris Sud
Topic: Recent Advances in Pockels Effect in Silicon
Dr. Yuriy Fedoryshyn, ETH Zurich
Topic: Dense Integration of Plasmonic Modulators for
Compact High-speed Optical Interconnects
Hon Ki Tsang
The Chinese University of
Hong Kong
Zhiping Zhou
Peking University
Prof. Lech Wosinski, Royal Institute of Technology (KTH)
Topic: Technological Challenges in Si Nanophotonic and
Plasmonic Fabrication
Prof. Pavel Cheben, National Research Council, Canada
Topic: Subwavelength engineering for silicon photonics
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Prof. Graham Reed, University of Southamption
Topic: Single Crystal SiGe on Insulator
Dr. Jianping Li, Jinan University, China
Topic: Multimode-multiplexing based technology for lowcost short reach optical interconnect
Dr. Xiaofeng Lu, Technical University of Denmark
Topic: Optical Vortices Techniques for Short Range Data
Communications
Prof. Zabih (Fary) Ghassemlooy, University of Northumbria
at Newcastle, UK
Topic: Visible light Communications – A green Technology
with Multiple Functionalities
Prof. Chi-Wai Chow, National Chiao Tung University
Topic: Short-Reach Light Emitting Diode (LED) based Visible
Light Communications (VLC)
Lin Yang
Institute of Semiconductors,
Chinese Academy of Sciences
Introduction:
The rapid development of silicon photonics has been driven
by the potential of silicon photonics for energy-efficient,
high-speed optical interconnects in computing and by the
opportunities of new applications in telecommunications and
sensors based on the advantage of low-cost large-volume
manufacturing that is possible from CMOS foundries. In this
workshop we discuss some of the technology challenges and
the real applications for silicon photonics that have emerged
in the market place. This workshop is to provide a forum
for researchers on silicon photonics to present and discuss
their vision, recent progresses, and future challenges and
applications.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 14
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Workshop 6: Nanophotonics and Related
Technologies (NART)
Time: 14:30–18:30, 20 November
Venue: Room S228, HKCEC
Organizers:
Prof. Darren Bagnall, UNSW, Sydney, Australia
Topic: Antireflection and light-trapping in photovoltaics
Workshop 7: What Are the Next Spotlights for
Optical and Radio Frequency Orbital Angular
Momentum Beams?
Prof. Daoxin Dai, Zhejiang University, Hangzhou,China
Topic: Graphene-silicon nanophotonic integrated circuits
Time: 09:00–12:00, 20 November
Venue: Room S226, HKCEC
Prof. A. W. Poon, HKUST, Hong Kong SAR, China
Topic: Surface-state absorption induced photocurrent
generation in silicon waveguides and microrings in
1300/1550nm wavelengths
Organizers:
Speakers:
Prof. Hon K. Tsang, CUHK, Hong Kong SAR, China
Topic: Hybrid Integration of 2-D materials on optical
waveguides
Sergei Popov
Royal Institute of Technology
KTH, Sweden
Lech Wosinski,
Royal Institute of Technology
KTH, Sweden
Introduction:
This workshop will focus on the fundamentals, recent
advances and applications of nanophotonics and related
technologies. Latest achievements in nanotechnology allow
for studying and implementation of new, interesting effects
in nano-scale photonics, new ways of controlling the interaction between guided modes and electronic excitations and
light-matter interaction in nanostructures. Photonic integrated circuits technology have been given much attention
in recent years and the rapid development of the photonic
integration technology is showing great promises for the
implementation in the next generation devices for optical
communication, interconnects and sensing. This workshop
aims to provide a forum for international experts to present
and discuss the visions and perspectives of these technologies including recent progresses and future prospects and
challenges for applications
Dr. Pavel Cheben, National Research Council, Canada
Topic: Subwavelength grating engineered nanostructures for
integrated optics
Prof. JianJun. He, Zhejiang University, Hangzhou, China
Topic: Single Electrode Controlled Fast Wavelength
Channel Switching in Tunable V-Cavity Laser Fabricated with
Quantum Well Intermixing Technology
Prof. A.V. Zayats, King’s College London,UK
Topic: Nonlinear Hyperbolic Materials
Shanguo Huang
State Key Laboratory of
Information Photonics and
Optical Communications,
Beijing University of Posts
and Telecommunications,
China
Jian Wang
Wuhan National Laboratory
for Optoelectronics,
Huazhong University of
Science and Technology,
China
`
Siyuan Yu1,2
Photonics Group, Merchant Venturers School of
Engineering, University of Bristol, UK
2
State Key Laboratory of Optoelectronic Materials and
Technologies and School of Physics and Engineering, Sun
Yat-sen University, China
1
Introduction:
Orbital angular momentum (OAM) is a physical property of
the photon or electromagnetic (EM) wave that has attracted
much attention in recent years. Although the simplest OAM
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 15
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beams can be scalar fields, EM waves or photons carrying
OAM are often vectorial fields with spatially varying polarization, therefore also carrying spin angular momentum
(SAM) and known as cylindrical vectorial vortices (CVVs). For
potential applications at both optical and RF frequencies,
the generation, manipulation, propagation and detection of
various OAM – carrying beams or photons are of fundamental importance. The unbounded OAM mode space has already shown significant promise in information transmission,
both in mode multiplexed classical data transmission and in
quantum communications. The complex interaction between
OAM beams (especially CVVs) and matter could lead to
important new applications in areas such as imaging and
remote sensing, particulate manipulation, biophotonics, etc.
This workshop aims to explore the direction of research in
the fundamental aspects of OAM and it applications through
invited presentations and panel discussions sessions. The
discussions will focus on the state-of-the-art advances and
in particular will discuss future research directions in OAMcarrying beams and their applications in various areas. The
topics address will include but not limited to:
• Fundamental principles of OAM beams
• Schemes and components for generating, manipulating
and detecting OAM beams
• Obstacles and solutions in the propagation of OAM
beams
• Classical data communications using OAM
• Quantum photonic information applications of high
dimensional OAM states
• Imaging and remote sensing using OAM
• Manipulation, control and analysis of macro – and microscopic matter using OAM beams
• Deep space exploration using OAM beams
• RF and terahertz OAM applications
Speakers:
Prof. Juan. P. Torres, Universitat Politecnica de Catalunya,
Spain
Topic: Optical Doppler Shift with Structured Light: A New
Tool to Measure Flow Vorticity and Transverse Particle
Movement
Workshop 8: Recent Advances in Space-Division
Multiplexing (SDM) Time: 14:00–18:00, 20 November
Venue: Room S226, HKCEC
Organizers:
Prof. Baosen Shi, University Of Science and Technology of
China, China
Topic: Quantum Storage of Orbital Angular Momentum
State
Prof. Zhiyuan Zhou, University Of Science and Technology
of China, China
Topic: Highly Efficient Frequency Conversion and Splitting of
Orbital Angular Momentum Carrying Light
Prof. Xinlun Cai, Sun Yat-sen University, China
Topic: Photonic Integrated Circuits for Generation and
Manipulation of Light’s Orbital Angular Momentum
Prof. Jian Wang, Huazhong University of Science and
Technology, China
Topic: Flexible Spatial Light Modulation Using Phase-Only
Elements
Jian Wang
Wuhan National Laboratory
for Optoelectronics,
Huazhong University of
Science and Technology,
China
Prof. Xiaocong Yuan, Shenzhen University, China
Topic: Dynamic DOES for OAM Interconnections
Prof. Zizheng Cao, Eindhoven University of Technology,
Netherland
Topic: Photonics Assisted Broadband RF-OAM Generation
and Detection: Operation Principle and Integrated Solution
1
Siyuan Yu1,2
Photonics Group, Merchant
Venturers School of
Engineering, University of
Bristol, UK
2
State Key Laboratory of
Optoelectronic Materials
and Technologies and
School of Physics and
Engineering, Sun Yat-sen
University, China
Prof. Xinlu Gao, Beijing University of Posts and
Telecommunications, China
Topic: The Generation, Detection and Application of the RFOAM Beams Based on Microwave Photonics Technology
Prof. Xianming Zhang, Zhejiang University, China
Topic: Possible Applications of RF Orbital Angular
Momentum
Guifang Li1,2
CREOL, The College of Optics & Photonics, University of
Central Florida, USA
2
College of Precision Instrument and Opto-Electronic
Engineering, Tianjin University, Tianjin, China
1
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Introduction:
Space-division multiplexing (SDM) is considered to be a
promising technique addressing the capacity crunch. SDM
allows for continuous increase of aggregate transmission
capacity and spectral efficiency of optical communications.
Multi-core fiber (MCF) and few-mode fiber (FMF) are two attractive candidates widely used in SDM optical fiber communications. SDM explores the physical dimension of transverse
spatial structure which is termed the spatial multiplexing
of separated optical fields in a MCF or few linearly polarized (LP) modes in an FMF. In addition to MCF and FMF,
the concept of SDM can be further extended with great
flexibility as the transverse spatial structure of a light beam
can take many different forms. Twisted light beam carrying
orbital angular momentum (OAM) which is related to the
transverse spatial phase structure has attracted increasing
interest in SDM optical communications. The OAM-carrying
light beams have a helical phase front which is twisting along
the direction of propagation, so-called twisted light beams.
Remarkably, one distinct feature of OAM, in principle, is the
unlimited and intrinsically orthogonal states, i.e. multiple
twisted light beams with different twisting rates or OAM
states are inherently orthogonal with each other, which can
be used for SDM by OAM multiplexing. Very recently, OAMbased SDM has also seen great success both in fiber and
free-space optical communications with improved transmission capacity and spectral efficiency.
This workshop will focus on the recent advances in SDM.
Topics of relevance include but are not limited to:
• Design, modeling, fabrication and characterization of
multi-core fiber, few-mode fiber, multi-core few-mode
fiber, multi-mode fiber, OAM fiber and other special fibers
for SDM.
• Spatial light modulator (SLM), photonic lantern, and photonic integrated devices for SDM.
Multi-core and few-mode fiber amplifiers.
• Efficient multiplexing and demultiplexing techniques for
SDM.
• Analyses on linear and nonlinear impairments in fiber and
turbulence in free space.
• Coding algorithm, multiple-input multiple-output (MIMO)
digital signal processing, and other equalization techniques for SDM.
• SDM-assisted chip-scale photonic interconnects and data
center optical interconnects.
• System transmission experiments of SDM using multicore fiber, few-mode fiber, multi-core few-mode fiber, and
multi-mode fiber.
• Fiber-based and free-space system transmission experiments of SDM using OAM multiplexing.
• SDM networking applications with multi-core fiber, fewmode fiber, multi-core few-mode fiber, multi-mode fiber
and OAM fiber.
This workshop will include invited presentations and panel
discussions sessions. We sincerely welcome scientists,
students and industry representatives of relevant interest to
attend and join the workshop.
Prof. Guifang Li, 1CREOL, The College of Optics &
Photonics, University of Central Florida, USA; 2College of
Precision Instrument and Opto-Electronic Engineering,
Tianjin University, Tianjin, ChinaUniversity of California,
Davis, USA
Topic: TBD
Dr. Akihide Sano, NTT Network Innovation Laboratories,
NTT Corporation, Japan
Topic: Multi-Core Few-Mode Fiber Transmission Technology
Dr. Nicolas K. Fontaine, Bell Laboratories, Alcatel-Lucent,
USA
Topic: Space-Division Mutiplexing in Multi-Mode Fibers
Dr. Ezra Ip, NEC Labs America, USA
Topic: Elliptical Core Few-Mode Fibers for MIMO-Less IntraData Center Transmission
Speakers:
Prof. Siyuan Yu, 1Photonics Group, Merchant Venturers
School of Engineering, University of Bristol, UK 2State Key
Laboratory of Optoelectronic Materials and Technologies
and School of Physics and Engineering, Sun Yat-sen
University, China
Topic: A Summary of Research Progress in OAM
Communications Funded by the National 973 Program
Prof. S. J. Ben Yoo, University of California, Davis, USA
Topic: Space Division Multiplexing by 2D/3D Photonic
Integrated Circuits for OAM Mux/Demux/Conversion
Yongxiong Ren, Guodong Xie, Asher J. Willner, Nisar
Ahmed, Long Li, Zhe Wang, and Alan E. Willner
University of Southern California, USA
Topic: Challenges and Opportunities in using Orbital
Angular Momentum for Communication Links
Prof. Jian Wang, Huazhong University of Science and
Technology, Wuhan, China
Topic: Recent Progress in Space-Division Multiplexing using
Orbital Angular Momentum (OAM) Modes
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 17
2015ACP Program.indd 17
11/5/15 3:01 PM
IPOC Special Tutorial
Topic: Latest Novel Understandings of Electron
States Architectures in Crystalline Materials
and Likely of the Whole Physics
Time: 14:30–16:00, 22 November
Venue: N204/205, HKCEC
Presider: Kun Xu, Beijing University of Posts and
Telecommunications
Speaker:
Xiaomin Ren, Beijing University of Posts and
Telecommunications
Biograph: IET Fellow (since 2010); Professor and Vice President of Beijing University of Posts and Telecommunications
(BUPT), Beijing, China, since 1993 and 1996, respectively;
Director of the State Key Laboratory of Information Photonics and Optical Communications at BUPT and of its predecessor, a. homonymic ministry-level key laboratory, since
2011 and 2003, respectively. He received his Ph.D. degree in
Electronic Science and Technology (on Photonics and Optical Communications) from BUPT in 1989. Then he joined
BUPT and works with BUPT up to now. During 1994 to 1996,
he worked first as a Senior Visiting Scholar in Centro Studi E
Laboratori Telecomunicazioni (CSELT), Turin, Italy, and then
as a Visiting Senior Research Fellow in the Microelectronics
Research Center, University of Texas at Austin. He has been
a Standing Director of Chinese Optical Society since 2006
and an Associate Editor of IEEE/OSA Journal of Lightwave
Technology since 2010. He was a winner of the National
Outstanding Young Scientist Fund (NNSF, China) in the
year of 1996. He served for a period from 1998 to 2011 as
a Member, mostly as a Deputy Head, of two National 863
Expert Groups in different areas successively, first in the In-
formation Area and then in the New Materials Area (personally in charge of the researches regarding optoelectronics),
under the National 863 (High Tech) Program of China. He
had been the Chief Scientist of the National 973 Research
Projects (twice, one initial and one continued) on optoelectronics from 2003 to 2014 under the National 973 (Basic
Research) Program of China. He has made his efforts and
contributions to steer and organize a number of international
conferences for a long time. He was the General Chair of
2013 Asia Communications and Photonics Conference (ACP
2013) and is a Honorary Co-Chair of ACP 2015. He was just
now elected as the Chairman of the ACP Steering Committee. He has also been an executive director of Zh. I. Alferov
Russian-Chinese Joint Laboratory of Information Optoelectronics and Nanoheterostructures under the direct leadership
of Nobel Laureate, Prof. Zh. I. Alferov. His research interests
include novel III-V semiconductor nanoheterostructures, high
quality metamorphic epitaxy of semiconductor materials,
new compatible material systems for heterogeneous integrations, novel semiconductor/fiber based microstructures and
optoelectronic devices, Integrated optoelectronics (PIC and
OEIC) and advanced optical communication technologies.
Quite recently (since 2012), he has also paid great attention
to fundamental physics .
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 18
2015ACP Program.indd 18
11/5/15 3:01 PM
Industry Forum
Topic: Towards Ultra-high Speed Metro and
Data Center Networks: Demand, Challenge &
Technology
Time: 14:30–18:00, November 22
Place: Hong Kong Conference and Exhibition Center
(HKCEC), Room N207
Chairman:
Session I
14:30 Dr. Xiang Zhou, Google
Topic: Ultra-high Speed Optical Interconnection in Data
Centers
14:50 Dr. Xiang Liu, Huawei
Topics: Prospects on Ultra-broadband Access and Short
Reach Optics in 5G Era
15:10 Avi Shabtai, MultiPhy
Topics: Advanced DSP based 100G/400G Solutions for Data
Center Connectivity
15:30 Dr. Rangchen Yu, Oplink
Topics: Intra- and Inter- Data Center Optical Networking
Solutions for 100Gbps and Beyond
Dr. Yi Yao
President, Luster LightTech Corp.
Co-chairman:
15:50 Chris Cole, Finisar
Topics: 400G Ethernet and 50G PAM4 Technology Status
Session II
16:30 Dr. Chongjin Xie, Alibaba
Topic: Optical Technology for High-Speed Data Center
Networks
16:50 Xiaohong Zhang, Alcatel-Lucent Shanghai Bell
Topic: High Capacity DCI Solution in the Pipeline
17:10 Richard Jensen, Polatis
Topic: Optical Switching: A Key to Next Generation Data
Center
Dr. Jianhui Zhou
VP, Finisar Corporation
Mr. Avi Shabtai
CEO, MultiPhy
ACP 2015’s Industry Forum will present you the latest advances in the field of ultra-high speed metro and data center
networks by distinguished speakers from the industry. The
forum will cover products, technologies and applications
from both technical and business perspectives.
17:30 Akito Nishimura, Fujikura
Topic: Optical Passive Components for High Speed Data
Centers
17:50 Dr. Thomas Lee, SHF
Topic: Development of High Speed Test and Measurement
Solutions for High Speed Data Centers
Biographies of Speakers
Dr. Xiang Zhou is currently a Tech Lead within Google
platform advanced technology group, working on nextgeneration optical interconnection technologies. Prior to
joining Google on 2013, he had been with AT&T LabsResearch (Middletown, NJ, USA) for 12 years, conducting
research on various aspects of long-haul optical transmission
and photonic networking technologies, including Raman
amplification, polarization-and reflection-related impairments, optical power transients control (in dynamic optical
networks), advanced modulation formats and digital signal
processing for high-speed transmission (100Gb/s, 400Gb/s
and beyond). Between 1999 and 2001, he was with Nanyang
Technological University, Singapore as a Research Fellow,
doing research on optical CDMA and wide-band Raman amplification. Xiang Zhou received his Ph. D degree in electrical
engineering from Beijing University of Posts & Telecommunications in 1999. Dr. Zhou has extensive publications in top
journals and conferences in his field including several recordsetting ‘hero’ results, which have received wide media
reports. He holds 36 US patents with 15 more pending. He
is an OSA fellow, and currently serves as an associate editor
of Optics Express. He also served on the technical program
committee for a number of IEEE, OSA and SPIE technical
conferences.
Dr. Xiang Liu is the Director of Optical Access Networks
Department at Futurewei Technologies, Huawei R&D, USA,
focusing on next-generation optical access technologies. Dr.
Liu had been a Distinguished Member of Technical Staff at
Bell Labs New Jersey, working on high-speed optical fiber
communications. He has authored/coauthored over 280
journal and conference papers, and holds over 60 US patents. He is a Fellow of the OSA and an Associated Editor of
Optics Express. He has served as TPC Chairs in international
communications conferences such as The Optical Fiber
Communication Conference and Exposition (OFC), ACP, and
Wireless and Optical Communication Conference (WOCC).
Mr. Avi Shabtai is Chief Executive Officer (CEO) of MultiPhy,
a fabless semiconductor company providing cutting edge
DSP based ICs at 100 Gb/s for Data Center connections.
Avi has over 20 years of management experience in the
telecommunications industry with expertise in semiconductors, systems and solutions. Prior to joining MultiPhy, Avi
established and served as General Manager of Private and
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 19
2015ACP Program.indd 19
11/5/15 3:01 PM
Alternative Networks Line of Business at Alvarion (NASDAQ:
ALVR). During his time at Alvarion, Avi also served as Vice
President (VP) Marketing & Strategy, leading the WIMAX
business and product strategy and marketing activities of a
$250 million annual business unit. Prior to Alvarion, Avi held
senior Research & Development (R&D) and management positions at Tiaris, Metalink (NASDAQ: MTLK) and an elite R&D
unit of the Israeli Ministry of Defense. Avi holds B. Sc and M.
Sc. degrees in Electrical Engineering (EE) from the Technion,
Israel Institute of Technology, and is a SMP Graduate of the
Technion Institute of Management.
Dr. Rangchen Yu is currently VP of Business Development
and General Manager of Active Products at Oplink, a leading
optical communication solution provider, and a fully owned
subsidiary of Molex. Prior to joining Oplink in 2009, Dr. Yu
was Global VP of product development of Source Photonics, and VP of Datacom and Telecom, Fiberxon (acquired by
MRV). Dr. Yu also served various engineering and management positions with optical networking companies such as
Agility Communications and SDL (both acquired by JDSU).
Prior to joining optical networking industry, he conducted research in novel electronic material and devices at Princeton
University and University of Illinois at Urbana-Champaign.
Dr. Yu obtained his B. Sc. degree in Physics from Peking
University, and Ph. D. of Solid State Physics from University
of Pennsylvania.
Mr. Chris Cole is a Director at Finisar Corp., Sunnyvale,
California where he is architecting and leading the development of 50 Gb/s, 100 Gb/s and 400 Gb/s optical standards
and transceivers. He received a B.Sc. in Aeronautics and
Astronautics, and B.Sc. and M.Sc. in Electrical Engineering
from the Massachusetts Institute of Technology. At Hughes
Aircraft Co. (now Boeing SDC) and then M.I.T. Lincoln Laboratory, Chris contributed to multiple imaging and communication satellite programs such as Milstar. Later, he consulted
on telecom ASIC architectures and designs for Texas Instruments DSP Group and Silicon Systems Inc. (now Maxim).
Chris was one of the architects of the Sequoia coherent
imaging ultrasound platform at Acuson Corp. (now Siemens
Ultrasound), where he also managed hardware and software
groups. As a principal consultant with the Parallax Group he
carried out signal processing analysis and product definition
for several imaging and communication systems. At BBN,
a Finisar acquisition, Chris developed 10 Gb/s and 40 Gb/s
optical transceivers. He is a Senior Member of the IEEE.
Dr. Chongjin Xie received his M.Sc. and Ph.D. degrees from
Beijing University of Posts and Telecommunications, China in
1996 and 1999, respectively. From 1999 to 2001, he worked
at Photonics laboratory, Chalmers University of Technology
in Gothenburg, Sweden for one and half years to conduct post-doctorate research. He joined Bell Labs, Lucent
Technologies (now Alcatel-Lucent) in Holmdel, New Jersey,
USA in 2001, and was a Distinguished Member of Technical Staff, doing research on optical communication systems
and networks. He joined Alibaba Group in 2014, working
on data center optical technologies. He has authored and
co-authored more than 200 journal and conference publications, and two book chapters. He is an associate editor of
Journal of Lightwave Technology, and has served in many
conferences as chairs, Technical Program Committee (TPC)
chairs or TPC members. Dr. Xie is a senior member of IEEE
and a fellow of OSA.
Dr. Thomas Lee is currently VP Marketing of SHF Communication Technologies AG. He has been with SHF since 2002
after a career with Nortel Network’s optical system research
laboratory in Harlow UK, where he was involved in the investigation of high speed optical transmission systems at 40
Gb/s. In SHF, he is currently involved in the development of
high speed BER test and measurement equipment targeting
R&D applications in data and optical communications for
400 Gb/s and beyond.
Mr. Xiaohong Zhang is currently a Senior Product Manager
of Alcatel-Lucent IP/Optics product in China. He works for
the OTN product management, and focuses on high speed
optical transmission, OTN product strategy definition and
product evolution.
Mr. Richard Jensen is currently Vice President of Architecture at Polatis, and has over 25 years of experience working
in optical communications. Before joining Polatis, he was
a Technology Director at Sycamore Networks working on
emerging optical networking architectures and transmission
technologies. In addition, he has over 15 years of engineering and management experience in undersea systems at
AT&T Bell-Labs working on ultra-long haul undersea transmission systems.
Mr. Akito Nishimura is Group Manager of Fiber Optic
Network Product R&D Department at Fujikura Ltd. He is
responsible for developing optical components for optical
inter-connection. During his 23-year career with Fujikura, he
developed optical multi fiber connectors for telecommunications and data communications. He holds a Master’s degree
in Mechanical Engineering from Ibaraki University, Japan.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 20
2015ACP Program.indd 20
11/5/15 3:01 PM
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Conference Schedule
Registration
Thursday
19 Nov.
Friday
20 Nov.
Saturday
21 Nov.
Sunday
22 Nov.
Monday
23 Nov.
14:00–17:001
09:00–17:002,3
08:00–12:004
12:00–19:005
08:30–18:005
08:30–17:005
Venue
1. Room CD 634, The Hong Kong Polytechnic
University
2. Foyer, Concord Room, Renaissance Hong Kong
Harbor View Hotel (Pre-registration only)
3. Foyer, Room S221, HKCEC
4. Foyer, Theatre 1, HKCEC
5. Room N201, HKCEC
Visit to The Photonics Research Centre
14:00–17:00
(every hour)
The Hong Kong Polytechnic University
Special Workshop
09:00–15:15
Jinan University, Meeting Room, 4th Floor, Alumni
Bldg.
Workshops
09:00–18:30
Concord Room II, Renaissance Hong Kong Harbor
View Hotel, and Rooms S226-S228, HKCEC
Symposium
09:00–18:30
Concord Room I, Renaissance Hong Kong Harbor
View Hotel
Industry Exhibition
13:00–18:00
Opening and Plenary Session
08:30–12:40
Technical sessions
14:00–18:00
Industry Forum
Welcome Reception
Poster Session
08:30–18:00
Room N201, HKCEC
Theatre 1, HKCEC
08:30–18:00
08:30–16:00
14:30–18:00
Rooms N202-N212, HKCEC
Room N207, HKCEC
18:00–19:00
Room N201, HKCEC
10:00–11:30
Best Student Paper Competition
Session
IPOC Special Tutorial
08:30–17:00
Room N201, HKCEC
08:30–12:30
14:30–16:00
Rooms N204/205 & N211, HKCEC
Room N204/205, HKCEC
Postdeadline Papers
16:30–18:30
Rooms N202/N203 and N211/N212, HKCEC
Banquet and Closing Ceremony
19:00–21:00
Chancellor Room, HKCEC
Note:
All times reflect Hong Kong time. Please check with conference organizer during conference for schedule changes and updates
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 24
2015ACP Program.indd 24
11/5/15 3:02 PM
Asia Communications and Photonics Conference and Exhibition (ACP) — Agenda of Sessions
Agenda of Sessions
Thursday, November 19
14:00–17:00
Registration Open, CD634, The Hong Kong Polytechnic University, Hung Hom, Hong Kong
09:00–15:15
Special Workshop on Next Generation Optical Inter-Connection Techniques
Meeting Room, 4th Floor, Alumni Building
Jinan University, Guangzhou, China
Huangpu Road West 601, Guangzhou, China
14:00–17:00
Visit to The Photonics Research Centre, The Hong Kong Polytechnic University
(From 14:00–17:00 every hour)
Explanation of Session Codes
AS3C.4
Number
(Presentation order
within the session)
Meeting Name
A = Asia Communication and
Photonics Conference
Day of the Week
S = Saturday
Su = Sunday
M = Monday
Series Number
1=First Series of Sessions
2=Second Series of Sessions
Session
Designation
(alphabetically)
The first letter of the code designates the meeting. The second element denotes the day
of the week (Saturday=S, Sunday=Su, Monday=M). The third element indicates the session
series in that day (for instance, 1 would denote the first parallel sessions in that day). Each day
begins with the letter A in the fourth element and continues alphabetically through a series
of parallel sessions. The lettering then restarts with each new series. The number on the
end of the code (separated from the session code with a period) signals the position of the
talk within the session (first, second, third, etc.). For example, a presentation coded AS3C.4
indicates that this paper is being presented on Saturday (S) in the third series of sessions (3),
and is the third parallel session (C) in that series and the fourth paper (4) presented in that
session.
Invited papers are noted with
Invited
Tutorial papers are noted with
Tutorial
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 25
2015ACP Program.indd 25
11/5/15 3:02 PM
Agenda of Sessions
Asia Communications and Photonics Conference and Exhibition (ACP) — Agenda of Sessions
Friday, November 20
Concord Room I
Renaissance Hotel
Symposium
09:00–17:00
Concord Room II & III
Renaissance Hotel
Workshop
Room S227
Workshop
Room S228
Workshop
Registration Open, Foyer, Concord Room, Renaissance Hong Kong Harbor View Hotel (Pre-registration only) and Foyer, Room S221, HKCEC
09:00–12:30 Symposium on Novel Optical
Networks in 5G Era
(09:00-12:30)
Recent Advances in Optical Fiber and Closing the Gap to Shannon Limit:
Specialty Fibers
What is Next for Nonlinearity
(09:00-12:00)
Compensation in Optical
Communication?
(09:00–12:00)
Silicon Photonics – Technology
Challenges and Applications
(09:00–13:00)
10:30–11:00
Coffee Break, Foyer, Concord Room,Renaissance Hong Kong Harbor View Hotel and Foyer, Room S221, HKCEC
12:30–14:00
Lunch Break, On Your Own
13:30–18:30 Symposium on Novel Optical
Networks in 5G Era
(14:00-17:00)
15:30–16:00
Room S226
Workshop
Recent Advances in Optical Fiber
Sensors
(13:45-17:00)
Short Reach Optical Communication
Systems
(13:30–18:00)
(14:00–18:00)
Nanophotonics and Related
Technologies (NART)
(14:30–18:30)
What Are the Next Spotlights for
Optical and Radio Frequency Orbital
Angular Momentum Beams?
(09:00–12:00)
Recent Advances in Space-Division
Multiplexing (SDM)
(14:00–18:00)
Coffee Break, Foyer, Concord Room,Renaissance Hong Kong Harbor View Hotel and Foyer, Room S221, HKCEC
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 26
2015ACP Program.indd 26
11/5/15 3:02 PM
Asia Communications and Photonics Conference and Exhibition (ACP) — Agenda of Sessions
Agenda of Sessions
Saturday, 21 November
Room
N202
Room
N204/205
Room
N208
Room
N207
Room
N211
Room
N212
Room
N206
Room
N203
08:00–19:00
08:00–12:00 Registration Open, Theatre Foyer, Theatre 1, 12:00–19:00, N201 Foyer, HKCEC
08:30–10:30
Opening and Plenary Session, Theatre 1, HKCEC
Opening – 20 minutes
Plenary Presentation 1 – 50 minutes
Plenary Presentation 2 – 50 minutes
10:30–11:00
Coffee Break, Room N201, HKCEC
11:00–12:40
Plenary Session, Theatre 1, HKCEC
Plenary Presentation 3 – 50 minutes
Plenary Presentation 4 – 50 minutes
12:40-14:00
Lunch Break, On Your Own
13:00–18:00
Industry Exhibition, Room N201, HKCEC
14:00-15:30
AS3A •
Heterogeneous
Integration
and Device
Fabrication
AS3B •
Microcavities
and Performance
Estimation
18:00–19:00
AS3E • LongReach Access
and Metro
Systems
AS3F • Long-haul AS3G • 5G
Transmissions I
Transport
Networks
Room
N210
AS3H • Access
Networks I
AS3I •
Microscopy for
Living Systems
(ends at 15:15)
AS3J • Optical
Wavelength
Conversion
AS4H • SDN and
EON I
AS4I • Sensors
and Biosensing I
AS4J •
Microresonators
and Applications
(ends at 17:45)
Coffee Break around Exhibition Area, Room N201, HKCEC
15:30–16:00
16:00–18:00
AS3C • Nonlinear AS3D • FEC
Fiber Optics I
Coding
Room
N209
AS4A • Optical
Routers and
Switching
AS4B • Photonic
Integrated
Circuits I
AS4C • Nonlinear AS4D • Short
Fiber Optics II
Reach Systems
(ends at 17:15)
AS4E • Spatial
Division
Multiplexing I
AS4F • Digital
AS4G • Network
Signal Processing Design,
Modelling and
Control
Welcome Reception, Room N201, HKCEC
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 27
2015ACP Program.indd 27
11/5/15 3:02 PM
Agenda of Sessions
Asia Communications and Photonics Conference and Exhibition (ACP) — Agenda of Sessions
Sunday, 22 November
Room
N202
Room
N204/205
Room
N208
Room
N207
Room
N211
Room
N212
08:30–18:00
Registration Open, Room N201, HKCEC
08:30–18:00
Industry Exhibition, Room N201, HKCEC
08:30–10:00
ASu1A • Optical
Materials
ASu1B •
Photonic
Integrated
Circuits II
ASu1C • Fiber
Lasers I
ASu1D •
Plasmonics and
Metamaterials
ASu1E •
Transceivers I
(ends at 9:45)
Room
N206
ASu3G • Fi-Wi
Networks
ASu3H • SDN
and Network
Design
ASu3I • Sensors
and Biosensing II
(ends at 12:30)
ASu3J • Radio
Over Fiber II
ASu4E • SDN
ASu4D •
Coherent Optical and EON II
Signal Processing (ends at 15:45)
(TRACK 6)
ASu4F • SDN
ASu4G • Label
Free Techniques
(ends at 15:45)
ASu4H •
Modulation and
Multiplexing
Techniques
ASu5F • Network ASu5G •
ASu5H •
Survivability
Software Defined Ultrasonics and
Hardware
Pressure Sensing
(ends at 17:30)
ASu5I • Optical
Sources and
Detectors
ASu2A • Poster Session, Room N201, HKCEC
10:30–11:00
Coffee Break, Room N201, HKCEC
ASu3A •
Photonic
Integrated
Circuits III
ASu3B •
Semiconductor
Lasers
ASu3C • Fiber
Lasers II
(ends at 12:45)
ASu3D •
Nanomaterials
for THz Devices
(ends at 12:45)
ASu4A •
Integrated
Nonlinear Optics
IPOC Special
Tutorial:
Latest Novel
Understandings
of Electron
States
Architectures
in Crystalline
Materials and
Likely of the
Whole Physics
ASu4B •
Specialty Optical
Fiber
Industry Forum
ASu4C • Data
Center Optics
Coffee Break around Exhibition Area, Room N201, HKCEC
16:00–16:30
16:30–18:00
ASu3F • DSP for
Nonlinear Fiber
Tranmissions
Lunch Break, On Your Own
13:00–14:30
14:30–16:00
ASu3E • Access
Networks for
Next Generation
Wireless
(ends at 12:45)
Room
N210
ASu1J • Radio
Over Fiber I
10:00–11:30
11:30–13:00
Room
N209
ASu1H • ONoC, ASu1I •
FSO, VLC, Hybrid Therapeutics and
OPS/OCS
In Vivo Imaging
ASu1F • High
Spectral
Efficiency
Modulation
Formats
ASu1G • Access
Networks II
Room
N203
ASu5A •
Photodetectors
ASu5B • Optical
Modulators
ASu5C • Novel
Fiber Devices I
Industry Forum
ASu5D •
Spatial Division
Multiplexing II
ASu5E •
Transceivers II
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 28
2015ACP Program.indd 28
11/5/15 3:02 PM
Asia Communications and Photonics Conference and Exhibition (ACP) — Agenda of Sessions
Agenda of Sessions
Monday, 23 November
Room
N202
Room
N204/205
Room
N208
Room
N207
Room
N211
Room
N212
08:30–17:00
Registration Open, Room N201, HKCEC
08:30–17:00
Industry Exhibition, Room N201, HKCEC
08:30–10:30
AM1A •
Polarization
& Spatial
Multiplexing
Devices
AM1B • Best
Student
Paper Award
Competition
(Track 1 and 6)
AM1C • Fiber
Lasers III
AM2A •
Quantum Dot
and Nanowire
Devices and
Photodetectors
AM2B • Best
Student Paper
Compeittion
(Track 2 and 5)
AM2C • Fiber
Lasers IV
AM2D • Optical
Fiber Sensors II
AM1F • PON I
AM1G • Optical
Control and
Processing of RF
Signals
(ends at 10:15)
AM1H •
Datacenter
Networks
Room
N209
Room
N210
AM1J • Optical
AM1I •
Manipulation and Signal Processing
I
Sensors
(ends at 10:15)
AM2E • Best
Student Paper
Competition
(Track 3 and 4)
AM2F • PON II
AM2H • Optical
Signal Processing
II
AM2G •
Optically Based
Microwave
Generation and
Detection
(ends at 12:15)
Lunch Break, On Your Own
12:30–14:00
14:00–16:00
AM1E • Systems
and Networks
Room
N203
Coffee Break around Exhibition Area, Room N201, HKCEC
10:30–11:00
11:00–12:30
AM1D • Optical
Fiber Sensors I
Room
N206
AM3A • Devices
for Optical
Interconnects
AM3B • Fiber
Lasers V
(ends at 15:45)
AM3C • Novel
Fiber Devices II
(ends at 15:45)
AM3D •
Long-haul
Transmissions II
(ends at 15:45)
AM3E • DSP
for Short-reach
Systems
(ends at 15:15)
AM3F • Signal
Processing
for Advanced
Modulation
Formats
(ends at 15:45)
16:00–16:30
Coffee Break around Exhibition Area, Room N201, HKCEC
16:30–18:30
Postdeadline Session, Rooms N202/N203 and N211/N212, HKCEC
19:00–21:00
Banquet and Closing Ceremony, Chancellor Room, HKCEC
AM3G • Node
Architecture
(ends at 15:30)
AM3H •
Plasmonics and
Sensors
(ends at 15:45)
AM3I • Optical
Signal Recovery
(ends at 15:45)
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 29
2015ACP Program.indd 29
11/5/15 3:02 PM
ACP 2015 — Saturday, 21 November
Conference Room N202
Conference Room N204/205
Conference Room N208
Conference Room N207
Conference Room N211
Registration Open, 08:00–12:00 Foyer, Theatre 1, HKCEC and 12:00–19:00, Room N201,HKCEC
Saturday, 21 November
08:30–10:30 Opening and Plenary Session, Theatre 1, HKCEC
Opening – 20 minutes
Plenary Presentation 1 – 50 minutes
Plenary Presentation 2 – 50 minutes
10:30–11:00 Coffee Break, Room N201, HKCEC
11:00–12:40 Plenary Session, Theatre 1, HKCEC
Plenary Presentation 3 – 50 minutes
Plenary Presentation 4 – 50 minutes
12:40-14:00 Lunch Break, On Your Own
13:00–18:00 Industry Exhibitor, Room N201, HKCEC
14:00–15:30
AS3A • Heterogeneous Integration
and Device Fabrication
Presider: Kei May Lau; Hong Kong
Univ. of Science and Technology, USA
14:00–15:30
AS3B • Microcavities and
Performance Estimation
Presider: Andrew Poon; Hong Kong
Univ. of Science & Technology, Hong
Kong
AS3A.1 • 14:00 Invited
2D and 3D Heterogeneous Photonic Integration for Future Microsystems, S. J. Ben Yoo1;
1
Electrical and Computer Engineering, Univ.
of California, USA. We will discuss 2D and 3D
heterogeneous integration technologies aiming at realizing microsystems for applications in
future communication, computing, and imaging
systems. The 3D photonic integrated circuit (PIC)
platform exploits direct inscribing of arbitrarily
shaped waveguides using femtosecond lasers.
AS3B.1 • 14:00 Invited
Optically Induced Transparency in a Microcavity, Yuanlin Zheng1, Jianfan Yang1, Zhenhua
Shen1, Jianjun Cao1, Xianfeng Chen1, Wenjie
Wan1; 1Shanghai Jiao Tong Univ., China. Optically
induced transparency in an optical microresonator
is observed by introducing four-wave mixing gain
to couple nonlinearly two isolated resonances of
the micro-cavity. Its optical-controlling capacity and non-reciprocity characteristics are also
demonstrated.
14:00–15:30
AS3C • Nonlinear Fiber Optics I
Presider: Morten Ibsen; Univ. of
Southampton, UK
AS3C.1 • 14:00 Tutorial
Novel Light-Matter Interactions in Photonic
Crystal Fibres, Philip S. Russell1; 1Max Planck
Inst. for the Science of Light, Germany. PCFs offer
remarkable control over light-matter interactions.
Examples include generation of ultra-broadband
supercontinua from infrared pulses, strong optomechanical effects, twisted PCFs that preserve
orbital angular momentum in sign and magnitude
and VUV generation in gases.
14:00–15:30
AS3D • FEC Coding
Presider: Kenichi Uto, Mitsubishi
Electric Corporation, Japan
AS3D.1 • 14:00 Invited
Turbo Product Coded Modulation and Error
Flare Control for Optical Fiber Transmission
Systems, Yi Cai1; 1ZTE Optics Labs, USA. We
propose a turbo-product-coded modulation
scheme with performance exceeding the claimed
theoretical limit on state-of-the-art SPC-LDPC
scheme. We experimentally demonstrate 2460km
4.8bits/s/Hz transmission of a turbo-product-coded 40Gbaud 16-QAM modulation. We investigate
error flare control with union-bound evaluation.
14:00–15:30
AS3E • Long-Reach Access and
Metro Systems
Presider: Hoon Kim, KAIST, Korea
AS3E.1 • 14:00 Invited
Deployment Scenario of Mode Division Multiplexing in Metro Area Network, Ken-ichi
Kitayama1, Nikolaos P. Diamantopoulos1, Akihiro
Maruta1, Yuki Yoshida1; 1Dept. Electri. Electro.
and Info. Sys, Osaka Univ., Japan. A deployment
scenario of mode division multiplexing (MDM) in
metro ring network using few-mode fibers (FMFs)
is presented. A novel mode-unbundled ROADM
demonstrates the finest data granularity, and
bi-directional transmission can circumvent the
MIMO DSP.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 30
2015ACP Program.indd 30
11/5/15 3:02 PM
ACP 2015 — Saturday, 21 November
Conference Room N212
Conference Room N206
Conference Room N203
Conference Room N209
Conference Room N210
Registration Open, 08:00–12:00 Foyer, Theatre 1, HKCEC and 12:00–19:00, Room N201,HKCEC
08:30–10:30 Opening and Plenary Session, Theatre 1, HKCEC
Opening – 20 minutes
Plenary Presentation 1 – 50 minutes
Plenary Presentation 2 – 50 minutes
Saturday, 21 November
10:30–11:00 Coffee Break, Room N201, HKCEC
11:00–12:40 Plenary Session, Theatre 1, HKCEC
Plenary Presentation 3 – 50 minutes
Plenary Presentation 4 – 50 minutes
12:40-14:00 Lunch Break, On Your Own
13:00–18:00 Industry Exhibitor, Room N201, HKCEC
14:00–15:30
AS3F • Long-haul Transmissions I
Presider: Alan Pak Tao Lau, The Hong
Kong Polytechnic Univ., Hong Kong
AS3F.1 • 14:00 Invited
Optimum Design of Hybrid Raman-EDFA
System to Maximize Aggregate Capacity, Yu
Sun1, Jin-Xing Cai1, Hongbin Zhang1, Hussam
Batshon1, Oleg Sinkin1, Carl Davidson1, Dmitri
Foursa1, Alexei Pilipetskii1; 1TE Subsea Communications, USA. Optimizing the aggregate capacity
in a broad-band system is a challenging task. We
review the optimization of a hybrid Raman-EDFA
system design and demonstrate a record capacity
of 54 Tb/s over 9,150 km.
14:00–15:30
AS3G • 5G Transport Networks
Presider: Lena Wosinska; Kungliga
Tekniska Hogskolan, Sweden
AS3G.1 • 14:00 Tutorial
Data and Control Plane Solutions for an Optical
5G Transport, Paolo Monti1; 1Kungliga Tekniska
Hogskolan, Sweden. This tutorial analyzes the
key data and control architectural challenges
for designing a flexible optical 5G transport infrastructure able to adapt in a cost efficient way
to the requirements coming from a number of
envisioned future 5G services.
14:00–15:30
AS3H • Access Networks I
Presider: Jiajia Chen; Kungliga
Tekniska Hogskolan, Sweden
AS3H.1 • 14:00 Invited
Applications of Self-Seeded Reflective Semiconductor Optical Amplifiers in Access Networks and Beyond, Elaine Wong1; 1Electrical
and Electronic Engineering, Univ. of Melbourne,
Australia. Recent research in self-seeded RSOAs
is reviewed. We show that (a) large improvements
in transmission capacity and reach have been
achieved since the first proposal, and (b) its role as
a colorless source in PON has evolved, extending
into the metro, local area, and mobile segments.
14:00–15:15
AS3I • Microscopy for Living
Systems
Presider: Michael Somekh, The Hong
Kong Polytechnic Univ., Hong Kong
AS3I.1 • 14:00 Invited
Label-free Super-resolution Optical Microscopy
of Cellular Dynamics, Thomas Huser1,2, Henning
Hachmeister1, Christian Pilger1, Viola Mönkemöller 1, Wolfgang Hübner1, Simon Hennig1,
Marcel Müller1, Gerd Wiebusch1; 1Dept of Physics
D3, Universitat Bielefeld, Biomolecular Photonics
Group, Germany; 2Dept. of Internal Medicine,
Univ. of California, USA. We demonstrate superresolved structured illumination microscopy (SRSIM) of Raman-active samples with 100 nm spatial
resolution. By combining SR-SIM with coherent
Raman scattering, even biological samples can
be visualized with doubled spatial resolution.
14:00–15:30
AS3J • Optical Wavelength
Conversion
Presider: Guo-Wei Lu; Natl. Inst. of
Info. & and Comm. Tech., Japan
AS3J.1 • 14:00 Invited
Broadband Wavelength Conversion: Towards
Versatile Mid IR Signal Generation, CamilleSophie Bres1; 1Ecole Polytechnique Federale de
Lausanne, Switzerland. We report recent results
on the generation of versatile short-wave infrared
sources relying on highly efficient broadband
wavelength conversion. Various architectures
based on the integrated association of nonlinear
and amplifying media will be presented.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 31
2015ACP Program.indd 31
11/5/15 3:02 PM
ACP 2015 —Saturday, 21 November
Conference Room N204/205
AS3A.2 • 14:30 Invited
Metamorphic Growth of III-V Devices on Silicon
Toward Electronic-Photonic Monolithic Integration, Kei May Lau1; 1Hong Kong Univ. of Science
and Technology, China. Abstract not available.
Saturday, 21 November
Conference Room N202
AS3A.3 • 15:00
A Yellow InGaP Light Emitting Diode Epitaxially Grown on Si Substrate, Cong Wang2, Bing
Wang1, Kenneth Eng Kian Lee1, Soon Fatt Yoon2,
Jurgen Michel3; 1Low Energy Electronic Systems
IRG, Singapore-MIT Alliance for Research and
Technology, Singapore; 2School of Electrical and
Electronic Engineering, Nanyang Technological
Univ., Singapore; 3Department of Materials Science and Engineering, Massachusetts Inst. of
Technology, USA. A yellow InGaP light emitting
diode (LED) emitting at 590 nm epitaxially grown
on Si substrate with SiGe and GaAsP buffer layers
is demonstrated. Characterizations of the epitaxy
growth and device fabrication are presented.
Conference Room N207
Conference Room N211
AS3B.2 • 14:30
Tunable Silicon Micro-disk Resonator with Flexible Graphene-based Ultra-thin Heaters, Longhai Yu1, Yaocheng Shi1, Sailing He1,2, Daoxin Dai1;
1
Zhejiang Univ., China; 2Royal Inst. of Technology,
Sweden. A thermally-tuning silicon-on-insulator
micro-disk resonator with a flexible graphenebased ultra-thin heater is demonstrated. The
experimental results show graphene heaters have
excellent performances on the heating efficiency
and the temporal response.
AS3D.2 • 14:30
Coded Modulation with APSK for OFDM-Based
Visible Light Communications, Qi Wang 1,
Zhaocheng Wang 1, Jinguo Quan 2; 1Tsinghua
National Laboratory for Information Science and
Technology (TNList), Department of Electronic
Engineering, Tsinghua Univ., China; 2Division
of Information Science & Technology, Shenzhen Graduate School, Tsinghua Univ., China.
Coded modulation with APSK is proposed for
OFDM-based VLC systems. Simulation results
show that the proposed scheme achieves better
performance than conventional QAM counterpart
in both DCO-OFDM and ACO-OFDM systems,
while similar complexity is maintained.
AS3E.2 • 14:30
Why Pulse Shape for Cost-sensitive Metro
Networks Should Differ from Optimal Pulse
Shape for Long-haul Networks, Philippe Jennevé1, Annalisa Morea 2, Camille Delezoide 1,
Sébastien Bigo1; 1Alcatel-Lucent Bell Labs, France;
2
Alcatel-Lucent, Italy. In metro networks, where
node filters are among the largest contributors
to impairments, we experimentally show that
long-haul optimized signal shapes may turn
suboptimal when laser frequency accuracy and
filter frequency mismatches are accounted for.
AS3B.3 • 14:45
Reconfigurable non-blocking 5-port optical
router based on microring resonators, Hao Jia1,
Yunchou Zhao1, Yuhao Xia1, Qiaoshan Chen1, Lei
Zhang1, Jianfeng Ding1, Lin Yang1; 1Institution
of Semiconductor,CAS, China. A reconfigurable
non-blocking 5-port optical router composed of
only 8 thermo-optic tuned microring-resonator
optical switches is demonstrated. The optical
SNR is characterized and 32 Gbps WDM data
transmission has been performed.
AS3D.3 • 14:45
Coded Orbital Angular Momentum Based
Free-space Optical Transmission in the Presence of Atmospheric Turbulence, Zhen Qu1,
Ivan B. Djordjevic1; 1Univ. of Arizona, USA. An
LDPC-coded OAM-based FSO transmission
system is experimentally studied in the presence
of emulator-induced-scintillation. Coding gains
>6.8dB are obtained at BER=10-4 for single OAM
mode and dramatic improvement is found in case
of OAM multiplexing.
AS3E.3 • 14:45
10GHz-wide Multi-band CAP Modulation over
100km IM/DD Dispersive Channel for Extended-reach Access Networks, Mohamed Essghair
Chaibi1, Frederic Grillot1, Didier Erasme1; 1Institut
Mines-Télécom, Telecom ParisTech, France. Transmissions of 10GHz multi-band CAP signals over
100km IM/DD dispersive channel are reported.
They are performed in an optical SSB context
generated with a D-EML. 30Gb/s over 50km and
24Gb/s over 100km are achieved.
AS3D.4 • 15:00 Invited
Next-Generation Forward Error Correction:
Can We Close the Gap to the Shannon Limit?,
Laurent Schmalen1, Vahid Aref1, Detlef Suikat1,
Detlef Rösener 1; 1Bell Laboratories, AlcatelLucent, Germany. We report the current status of
forward error correction schemes and show how
close we can operate to some theoretical limits
taking into account the size of the codes. Finally,
we compare some spatially-coupled codes.
AS3E.4 • 15:00
Experimental Demonstration of a Long reach
40-Gb/s Wavelength Stacked PON System
Based on OQAM-OFDM, Meihua Bi 1,2, Lu
Zhang2, Shilin Xiao2, Hao He2, Weisheng Hu2;
1
Hangzhou Dianzi Univ., China; 2Shanghai Jiao
Tong Univ., Shanghai, State Key Laboratory of
Advanced Optical Communication Systems and
Networks, China. We experimentally demonstrate
a long reach 40-Gb/s wavelength stacked PON
system with OQAM-OFDM signals. Results show
that comparing to OFDM-based system, our system can achieve higher sidelobe suppression ratio
and improvements of performance and capacity.
AS3B.4 • 15:00
Performance Measurements of Silicon Photonic
Optical Add-Drop Multiplexers Using Angled
Fiber Couplers, Abdoulkader Ali Houfaneh1,
Junjia Wang2, Christine Tremblay1, Lawrence R.
Chen2; 1Electrical Engineering Dept., École de
Technologie Supérieure, Canada; 2Elect. and
Comp. Eng. Dept., McGill Univ., Canada. We
demonstrate a multi-channel optical add/drop
multiplexer based on sampled Bragg gratings in a
Mach-Zehnder interferometer in silicon photonics.
A BER of less than 1x10-16 for a dropped channel
is obtained over a 38 hour period, verifying long
term stability and performance.
Conference Room N208
AS3C.2 • 15:00
Light-sound Interactions in Tellurite Microstructured Fiber, Suchara Sriratanavaree1, David M.
Leung1, Azizur Rahman1, Yasutake Ohishi2; 1City
Univ. London, UK; 2Toyota Technological Inst.,
Japan. Interactions of acoustic modes with optical
modes are presented by using full-vectorial finite
element based approaches for a Tellurite microstructured fiber. Results on the SBS frequency shift
and the overlap between acoustic and optical
modes are also shown.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 32
2015ACP Program.indd 32
11/5/15 3:02 PM
ACP 2015 —Saturday, 21 November
Conference Room N212
Conference Room N209
Conference Room N210
AS3F.2 • 14:30
Timing Jitter effect induced by PMD and Fiber
Nonlinearity on Nyquist-WDM System, Raman
Jee2, Somnath Chandra1; 1Dept. of Electronics
& Information Technology, Govt. of India, New
Delhi, India; 2Dept. of Electronics & Information
Technology,Govt. of India, India. In this paper, we
have investigated the performance of a NyquistWDM based transmission systems in the presence
of timing misalignment jitter induced by PMD
fiber non-linearity interaction.
AS3H.2 • 14:30
Experimental Demonstration of Time- and
Mode-Division Multiplexed Passive Optical
Network, Juhao Li1, Ruizhi Tang1, Fang Ren1,
Tao Hu1, Zhongying Wu1, Paikun Zhu1, Bangjiang
Lin2, Qi Mo3, Zhengbin Li1, Zhangyuan Chen1,
Yongqi He1; 1Peking Univ., China; 2Quanzhou Inst.
of Equipment Manufacturing, Haixi Institutes,
Chinese Academy of Sciences, China; 3Wuhan
Research Inst. of Posts and Telecommunications,
China. We propose time- and mode-division multiplexed passive optical network (TMDM-PON),
in which ONUs operate with both different time
slots and switched modes. We experimentally
demonstrate 10 km 2-mode TMDM-PON transmission without multi-input-multi-output (MIMO)
processing.
AS3I.2 • 14:30
Three-dimensional pulsed laser imaging based
on retina-like structure, Jie Cao1,2, Yang Cheng1,
Yuxin Peng2, Peng Wang1, Jiaxing Mu1, Hanglin
Cheng1, Haoyong Yu2; 1Beijing Inst. of Technology,
China; 2National Univ. of Singapore, Singapore.
We propose a three-dimensional imaging system
based on retina-like structure. The system has
advantages of space-variant resolution, rotation
and scaling invariance. Those properties are more
suitable where requires high speed and large
volume data processing.
AS3J.2 • 14:30 Invited
Recent Progress and Challenges in Developing
Practical All-optical Wavelength Converter, Takashi Inoue1, Hung Nguyen Tan1, Ken Tanizawa1,
Stephane Petit2, Kazuya Ota2, Shigehiro Takasaka3, Takeshi Yagi3, Shu Namiki1; 1Natl Inst of Adv
Industrial Sci & Tech, Japan; 2Trimatiz, Ltd., Japan;
3
Furukawa Electric Co., Ltd., Japan. We present
design issues of all-optical wavelength converter
for practical use and show recent demonstrations
using a developed prototype. We also discuss
challenges to improve the feasibility of wavelength converter toward deployment in the field.
AS3F.3 • 14:45
Investigation on Pulse-width and Roll-off Factor of Sampling Pulses in Coherent Matched
Sampling of a Nyquist Optical Time-division
Multiplexed Signal, Lei Yue1, Deming Kong1,
Yan Li 1, Jizhao Zang 1, Jian Wu 1; 1State Key
Laboratory of Information Photonics & Optical
Communications, Beijing Univ. of Posts and
Telecommunications, China. Coherent detection
of N-OTDM signal utilizing Nyquist-shaped pulses
is investigated. Optimum sampling pulse-width is
found to be independent with receiver bandwidth
smaller than baserate. And smaller roll-off factors
have slightly advantage over large roll-off factors.
AS3H.3 • 14:45
A symmetric 100Gb/s TWDM-PON with RSOAbased 12.5Gb/s colorless ONU and duplex
optical equalization, Zhensen Gao1, Qingjiang
Chang1, Simiao Xiao1, Chenhui YE1, Xiao Sun1,
Xiaoan Huang1, Xiaofeng Hu1, Kaibin Zhang1; 1Bell
Labs China, Alcatel-lucent Shanghai Bell, China.
We propose and validate a bandwidth-limited
RSOA based 100Gb/s symmetric TWDM-PON
system with centralized wavelength generation
technique and a single delay interferometer for
simultaneous optical equalization of 8 pairs of
duplex 12.5Gb/s NRZ signals.
AS3I.3 • 14:45
Utilization of coated glass substrates to
enhance the signal of multiphoton imaging,
Sheng-Lin Lee1, Han-Wen Guo1, Yang-Fan Chen1,
Chen-Yuan Dong1; 1National Taiwan Univ., Taiwan.
To improve the luminescent signal in nonlinear
optical imaging of biological specimens, specific
coated standard microscope cover glasses were
utilized to test a variety of specimens. Results
demonstrated image quality can be exactly
improved.
AS3H.4 • 15:00
Experimental Demonstration of Cost-Effective
Symmetric 100-Gb/s TWDM-PON Using 4x25Gb/s Duobinary Channels Based on 10G-Class
Optics, Zhicheng Ye 1, Shengping Li 1, Ning
Cheng2, Xiang Liu2; 1Huawei Technologies Co.,
LTD, China; 2Futurewei Technologies Co., Ltd.,
USA. We experimentally demonstrate a costeffective symmetric 100-Gb/s TWDM-PON based
on optical duobinary for downstream and 3-level
electrical duobinary modulation for upstream
using 10G-class optics at both OLT and ONU,
achieving >33 dB link loss budget.
AS3I.4 • 15:00
Intravital Quantitative Phase Microscopy for
Studying Blood Flow in Live Mouse Mesentery,
Kyoohyun Kim1, Kibaek Choe2, Pilhan Kim2, YongKeun Park1; 1Department of Physics, KAIST, Korea
(the Republic of); 2Graduate School of Nanoscience and Technology, KAIST, Korea (the Republic
of). We present a method for in vivo quantitative
phase images of red blood cells (RBCs) flowing
through microcapillaries of mouse mesentery,
which can quantitatively and non-invasively measure biochemical and morphological parameters
of intact RBCs.
AS3G.2 • 15:00 Invited
What Role for Photonics in Xhaul Networks of
5G systems?, Piero Castoldi1, Luca Valcarenghi1,
Filippo Cugini2, Fabio Cavaliere3, Paola Iovanna3;
1
Scuola Superiore Sant Anna di Pisa, Italy; 2CNIT,
Italy; 3Ericsson, Italy. This paper reviews key
challenges in designing a transport network
for 5G systems. Then it outlines how optics can
contribute in solving some of them and which
features the optical transport network shall be
provided with.
Saturday, 21 November
Conference Room N203
AS3F.4 • 15:00 Invited
Long-Haul Optical Transmission Using In-Line
Phase-Sensitive Amplifiers, Samuel L. Olsson1,
Magnus Karlsson1, Peter A. Andrekson1; 1Dept.
of Microtechnology and Nanoscience, Chalmers
Univ. of Technology, Sweden. We review recent
advances in periodically amplified transmission
using in-line phase-sensitive amplifiers (PSAs).
Recent results are discussed showing the benefits
of two-mode PSAs in periodically amplified transmission links provided by low-noise amplification
and nonlinearity mitigation.
Conference Room N206
AS3J.3 • 15:00
A Novel Wavelength Converter for PAM Signal
based on XGM in cascaded SOAs, Ryosuke
Matsumoto1, Yuki Yoshida1, Christos Stamatiadis2, Akihiro Maruta1, Ken-ichi Kitayama1; 1Osaka
Univ., Japan; 2Technical Univ. of Berlin, Germany.
We propose a novel all-optical wavelength converter using cascaded SOAs for the PAM format.
Wavelength conversion of 50-Gbit/s PAM-4
signal is demonstrated by numerical simulation
for the first time.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 33
2015ACP Program.indd 33
11/5/15 3:02 PM
Saturday, 21 November
ACP 2015 —Saturday, 21 November
Conference Room N202
Conference Room N204/205
Conference Room N208
AS3A.4 • 15:15
Free-standing Silicon Membrane Microstructures for Transferable Masks, Yunxiao Li1, Yujie
Chen1, Yanfeng Zhang1, Zengkai Shao1, Lin Liu1,
Chunchuan Yang1, Hui Chen1, Siyuan Yu1; 1Sun Yatsen Univ., China. We produce silicon membrane
(220 nm in thickness) with microstructures as hard
masks and have transferred them on to a diamond
plate, which is useful for further applications for
pattern etching or hybrid photonic integration.
AS3B.5 • 15:15
BER Calculation in Photonic Systems Containing
Stripe or Photonic Crystal Silicon Waveguides,
Jie You1, Spyros Lavdas1, Nicolae Panoiu1; 1Univ.
College London, UK. We introduce a theoretical
method to calculate bit error rates in photonic
systems containing silicon waveguides and analyze two particular cases: a single-mode optical
waveguide with uniform cross section and a slowlight photonic crystal waveguide.
AS3C.3 • 15:15
Experimental demonstration of simultaneous
high-spatial-resolution and sweep-free Brillouin
optical time-domain analysis using phonon preexcitation, Xin-Hong Jia1, Cong Xu1,2, Han-Qing
Chang1; 1Sichuan Normal Univ., China; 2Beijing
Univ. of Posts and Telecommunications, State Key
Laboratory of Information Photonics and Optical Communication, China. Simultaneous high
spatial resolution and sweep-free Brillouin optical
time-domain analysis sensor using phonon preexcitation is proposed and demonstrated. The
spatial resolution can be enhanced considerably
using this method (better than ~60cm).
Conference Room N207
Conference Room N211
AS3E.5 • 15:15
A Method of Adaptive Equalization and
Polarization Division De-multiplexing Aided
by Control Signal for Burst-mode Coherent
Receivers, Junlei Yu1, Liqian Wang1, Ping Liao2,
Zheng Yan1, Xiaoxu Cui1, Xue Chen1, Yongning
Ji2, Dongdong Shang2, Qi Zhang2, Yingfeng
Liu2; 1Beijing Univ. of Posts & Telecom, China;
2
ZTE Corporation, China. We propose a method
of adaptive equalization and polarization division de-multiplexing for burst-mode coherent
receivers aided by control signal. The 128Gbps
PDM-QPSK experiment shows that the proposed
method could reduce 50% convergence time
compared with traditional method.
15:30–16:00 Coffee Break around Exhibition Area, Rooom N201, HKCEC
NOTES
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Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 34
2015ACP Program.indd 34
11/5/15 3:02 PM
ACP 2015 —Saturday, 21 November
Conference Room N212
Conference Room N206
Conference Room N203
Conference Room N209
AS3J.4 • 15:15
Phase Erasure and Wavelength Conversion
Using Silicon Nonlinear Waveguide With Reverse Biased PIN Junctions, Guanyu Chen1, Yu
Yu1, Chunlei Sun1, Beibei Wu1, Xinliang Zhang1;
1
Wuhan National Laboratory for Optoelectronics
& School of Optical and Electronic Information,
Huazhong Univ. of Science and Technology,
China. We demonstrate the optical phase erasure
and wavelength conversion of 10 Gb/s phase
shift keying signal based on the non-transparency
four-wave-mixing (FWM) simultaneously using the
integrated silicon waveguide with reverse biased
PIN junction.
15:30–16:00 Coffee Break around Exhibition Area, Rooom N201, HKCEC
Saturday, 21 November
AS3H.5 • 15:15
Reach Extension of High-Capacity LR-PONs
in Chain Configuration of Distributed Amplifier Structure, Elias Giacoumidis1, Jinlong Wei2,
Giuseppe Talli3, Nick Doran 4, David Payne 4;
1
CUDOS, Univ. of Sydney, Australia; 2Optical
Networking SE, ADVA, Germany; 3Tyndall National Inst., Univ. College Cork, Ireland; 4Aston
Inst. of Photonic Technologies, Aston Univ., UK.
We show 100-Gb/s single-channel transmission
in LR-PONs with at least 512 way split and up
to 160 km total distance is feasible by means
of “chained” cable with amplifier solutions, and
appropriate FIR filter designs.
Conference Room N210
NOTES
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Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 35
2015ACP Program.indd 35
11/5/15 3:02 PM
ACP 2015 —Saturday, 21 November
Conference Room N202
Conference Room N204/205
Saturday, 21 November
16:00–18:00
AS4A • Optical Routers and
Switching
Presider: Daoxin Dai; Zhejiang Univ.,
China
16:00–18:00
AS4B • Photonic Integrated
Circuits I
Presider: Hon Tsang,The Chinese
University of Hong Kong, Hong Kong
AS4A.1 • 16:00 Invited
Silicon Photonic MEMS Switch: A New Path
to High Port Count Switches, Ming C. Wu1;
1
EECS Dept., Univ. of California Berkeley, USA.
Large-scale integrated photonic switches (64x64)
have been realized by combining silicon photonics with efficient MEMS switching mechanisms.
These switches are based on passive crossbar
architecture, which is fundamentally more scalable
than other switches.
AS4A.2 • 16:30
Fast and accurate calibration method for
large-port-count Si-wire PILOSS optical switch,
Satoshi Suda1, Ken Tanizawa1, Keijiro Suzuki1,
Hiroyuki Matsuura1, Kazuhiro Ikeda1, Shu Namiki1,
Hitoshi Kawashima1; 1AIST, Japan. We propose a
calibration method for N×N Si-wire path-independent-insertion-loss (PILOSS) optical switches
with thermo-optic Mach-Zehnder-interferometer
(MZI) element switches. Calibration for a 32x32
switch is numerically demonstrated with an error
less than 1% within an hour.
AS4B.1 • 16:00 Tutorial
Silicon Photonic Integrated Circuits, Po
Dong1; 1Bell Labs, Alcatel-Lucent, USA. In this
talk, we review the technical merits of silicon
photonic devices and integrated circuits, which
have benefited from high-index-contrast silicon
waveguides, a high integration level of various
optical functions on the same chips, and mature
complementary metal-oxide semiconductor
(CMOS) fabrication techniques. These technical
merits assure silicon photonics as a disruptive
optical technology that will achieve low-cost and
compact optical modules for data communications, with applications such as chip-scale optical
interconnects, short-reach communications in
datacenters and supercomputers, and metro/
long-haul optical transmissions. In particular, we
review silicon photonic circuits for wavelengthdivision multiplexing (WDM) transmitters, WDM
receivers, coherent optical transmitters and
coherent receivers, photonic networks-on-chip,
and silicon photonic light sources.
Conference Room N208
16:00–18:00
AS4C • Nonlinear Fiber Optics II
Presider: Sigang Yang, Tsinghua
University, China
Conference Room N207
16:00–17:15
AS4D • Short Reach Systems
Presider: Xiang Zhou, Google, Inc.,
USA
AS4C.1 • 16:00 Invited
Topographic Optical Fibers: A New Degree
of Freedom in Nonlinear Optics, Arnaud Mussot1; 1Univ. Lille 1 Laboratoire PhLAM, France.
We investigate theoretically and experimentally
basic nonlinear effects such as soliton propagation or modulation instability in what we called
topographic optical fibers. We show that in these
fibers which parameters are longitudinally modulated over a scale of a few meters, new dynamics
are observed. As a consequence it adds a new
degree of freedom in nonlinear optics and allows
to experimentally explore original phenomena.
AS4D.1 • 16:00 Invited
Stokes Space in Direct-Detection Data Transmission Systems, Jose Estaran1, Xiaofeng Lu1,
Darko Zibar1, Idelfonso Tafur Monroy1; 1Photonics
Engineering, Technical Univ. of Denmark, Denmark. Stokes-based processing permits complete
and phase-insensitive characterization of the
field’s SOP, readily unlocking polarization diversity
in transmission systems where DD is desired. We
present an overview on Stokes notions and most
recent achievements in this context.
AS4C.2 • 16:30 Invited
Periodic All-Fibre Devices for Optical Frequency Conversion and Generation, Morten
Ibsen1, Jindan Shi2, Shaif-ul Alam1, Eeleong Lim1,
Costantino Costantino1, Peter Kazansky1, David
J. Richardson1; 1ORC, Univ. of Southampton,
UK; 2SPI Lasers UK Ltd., UK. In this talk we will
review some of the latest advances in the use of
fibre Bragg gratings and periodically poled fibre
devices to access and generate high efficiency
light sources in new wavelength bands.
AS4D.2 • 16:30
30 Gb/s 2×2 MDM-DD-OFDM Transmission
over 200m Conventional MMF Link without
MIMO Compensation, Jiawei Luo1, Jianping
Li1, Qi Sui1, Zhaohui . Li1; 1Jinan Univ., China.
Mode-division-multiplexing of 30 Gb/s 2×2
direct detection OFDM transmission over conventional multimode fiber link is demonstrated.
The error-free transmission of unidirectional over
200m OM3 MMF link under FEC-limit is achieved
without using MIMO DSP compensation.
Conference Room N211
16:00–18:00
AS4E • Spatial Division
Multiplexing I
Presider: Ezra Ip, NEC Labs America,
USA
AS4E.1 • 16:00 Tutorial
Space-Division Multiplexing - The Next WDM?,
Peter J. Winzer1; 1Bell Labs, Alcatel-Lucent, USA.
With the demand for network capacity approaching fundamental fiber capacity limits, scaling
systems in the wavelength domain is insufficient.
The use of parallel spatial paths with high levels
of integration is an inevitable next step.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 36
2015ACP Program.indd 36
11/5/15 3:02 PM
ACP 2015 —Saturday, 21 November
Conference Room N206
Conference Room N203
16:00–18:00
AS4F • Digital Signal Processing
Presider: Alan Pak Tao Lau, The Hong
Kong Polytechnic Univ., Hong Kong
16:00–18:00
AS4G • Network Design, Modelling
and Control
Presider: Gangxiang Shen; Soochow
Univ., China
AS4F.1 • 16:00
An Efficient Equalization Method with Improved Modal Dispersion Tolerance for COSCFDE FMF Transmission, Yu Tian1, Juhao Li1,
Yingchao Xin1, Paikun Zhu1, Yuanxiang Chen1,
Zhongying Wu1, Fang Ren1, Yongqi He1, Zhengbin
Li1, Zhangyuan Chen1; 1Peking Univ., China. Modal
dispersion is one of the key impairments for fewmode fiber transmission. We propose a modified
equalization method for CO-SCFDE system,
which has better tolerance to modal dispersion
and slightly increased computational complexity.
AS4G.1 • 16:00 Invited
Frontiers of Optical Networks, Vincent W.
Chan1; 1Research Lab of Elec., Massachusetts Inst.
of Technology, USA. Future optical networks will
integrate multi-layer functions in a fast adapting
infrastructure. When data and control dynamics
speed-up by 103-4, the entire architecture, from
physical to application layers, must be redesigned
to be scalable.
AS4H.1 • 16:00 Invited
Software Defined Elastic Optical Networking
with Spectrum Engineering for BBU Cloud
Interconnection, Jie Zhang1, Jiawei Zhang 1,
Xiaosong Yu1; 1Beijing Univ of Posts & Telecom,
China. We focus on BBU cloud interconnection
issue in C-RAN, introduce a software-defined elastic optical networking architecture with Spectrum
Engineering to provide flexible and virtualized
optical paths, and present a SD-EON testbed to
verify the performance.
AS4I.1 • 16:00 Invited
Hybrid graphene-microfiber devices and their
application for sensing, Fei Xu1; 1National Laboratory of Solid State Microstructures and College
of Engineering and Applied Sciences, Nanjing
Univ., China. Graphene is an excellent material
for microfiber functionalization. Its extraordinary
properties allow the prompt use of graphenemicrofiber-hybrid devices for numerous optical
applications ranging from polarization controlling,
all-optical signal processing to physical, chemical
and biological sensing.
AS4G.2 • 16:30 Invited
Dynamic Routing over Unified Topology for
Coordinated IP+Optical Networks, Huiying
Xu1; 1Huawei Technologies Co Ltd, China. A unified topology routing algorithm for coordinated
IP+Optical networking is presented taking physical constraints into consideration. Test results
indicate a 19% reduction in blocking rate and 16%
reduction in utilization rate over the conventional
layer-by-layer VNT routing approach.
AS4H.2 • 16:30
Optimal Resource Allocation in DistanceAdaptive Few-Modes Backbone Networks
with Flexible Grid, Cristina Rottondi1, Pierpaolo
Boffi1, Paolo Martelli1, Massimo Tornatore1, Achille
Pattavina1; 1Politecnico di Milano, Italy. For the
optimization of RSA in few-mode flexi-grid networks, we derive distance-adaptive reaches for
few-mode transmission and optimally solve the
RSA problem to explore the tradeoff between
spectrum and transceivers, varying modulation
formats and baud-rate assignment.
AS4I.2 • 16:30
An All Quartz Fiber-Optic Acceleration Sensor
Based on Incident-Angle Sensitive Detection
Mechanism, Jie Hu1, Hui Huang1, Tingting Zhan1,
Ji Zhang1, Dongsheng Li1, Yan Yu1, Bo Qu1; 1Dalian
Univ. of Technology, China. This paper presents an
all quartz fiber-optic acceleration sensor of which
the temperature coefficient was 0.008dB/K. Based
on incident-angle sensitive detection mechanism,
a sensitivity of 83.4dB/g was achieved with a
detection limit of 100μg.
16:00–18:00
AS4H • SDN and EON I
Presider: Lena Wosinska, Kungliga
Tekniska Hogskolan, Sweden
Conference Room N209
16:00–18:00
AS4I • Sensors and Biosensing I
Presider: Aaron Ho, The Chinese Univ.
of Hong Kong, Hong Kong
AS4F.2 • 16:15
Blind and Simultaneous Polarization and Phase
Recovery for Time Domain Hybrid QAM Signals
Based on Extended Kalman Filtering, Wen
Jiang1, Qun Zhang1, Guoliang Cao1, Kangping
Zhong2, Yong Yao1, Yanfu Yang1; 1Electronic and
Information Engineering, Shenzhen Graduate
School, Harbin Inst. of Technology, China; 2Electronic and Information Engineering, The Hong
Kong Polytechnic Univ., Hong Kong. An EKFbased polarization and phase tracking scheme
for time domain hybrid QAM signals is proposed.
The influences of power ratio, format ratio, phase
noise, polarization rotation, and residual frequency offset are analyzed by numerical simulation.
AS4F.3 • 16:30
Blind Equalization Algorithm for Reducing
Computational Complexity in Coherent Optical
OFDM System, Bintao Hu1, Shilin Xiao1, Meihua
Bi2,1, Zhao Zhou1, Ling Liu1, Lu Zhang1; 1Shanghai
Jiao Tong Univ., China; 2College of Communication Engineer, Hangzhou Dianzi Univ., China.
A new modified constant modulus algorithm
(MCMA) for CO-OFDM system has been proposed in this paper. Experiments demonstrate
that the computational complexity reduction can
be achieved without penalty in the dispersion
compensation performance.
Conference Room N210
16:00–17:45
AS4J • Microresonators and
Applications
Presider: Sai Tak Chu; City Univ. of
Hong Kong, Hong Kong
AS4J.1 • 16:00 Tutorial
Optical Signal Processing and Ultrabroadband
Microwave Photonics using Microresonators,
Andrew M. Weiner1, Minghao Qi1; 1School of Elect
& Comp Eng, Purdue Univ., USA. Selected applications of optical microresonators are reviewed,
with an emphasis on examples from Purdue Univ.,
including radio-frequency and optical arbitrary
waveform generation, optical nonreciprocity, and
generation of optical frequency combs.
Saturday, 21 November
Conference Room N212
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 37
2015ACP Program.indd 37
11/5/15 3:02 PM
ACP 2015 —Saturday, 21 November
Conference Room N202
Conference Room N204/205
Conference Room N208
Conference Room N207
Conference Room N211
AS4D.3 • 16:45
8-dimensional Lattice Optimized Formats
in 25-GBaud/s VCSEL based IM/DD Optical
Interconnections, Xiaofeng Lu1, Idelfonso Tafur
Monroy1,2; 1Department of Photonics Engineering,
Technical Univ. of Denmark, Denmark; 2ITMO
Univ., Russian Federation. Temporally combined
4- and 8-dimensional lattice grids optimized
modulation formats for VCSEL based IM/DD
short-reach optical inter-connections has been
proposed and investigated numerically together
with its conventional counterpart PAM-4.
Saturday, 21 November
AS4A.3 • 16:45 Invited
16×16 Non-Blocking Silicon Thermo-Optic
Switch with a Benes Architecture, Linjie Zhou1;
1
EE Department, Shanghai Jiao Tong Univ., China.
We demonstrate a 16×16 silicon optical switch
consisting of 56 thermo-optic MZI switches in a
Benes architecture. The chip size is 7×3.6 mm2.
The on-chip insertion loss is <5 dB and the crosstalk is <-20 dB.
AS4B.2 • 17:00 Invited
Heterogeneous Lithium-Niobate-on-Si Photonics, Sasan Fathpour1; 1Univ. of Central Florida,
CREOL, USA. Submicron thin film of lithium
niobate are heterogeneously integrated on silicon
substrates and rib-loaded with suitable indexmatching materials for compact waveguide
formation. High-Q microring modulators and
low-voltage and high-modulation-depth MachZehnder modulators are demonstrated.
AS4A.4 • 17:15 Invited
Silicon Optical Routers for Photonic Networkson-chip, Lin Yang1, Yuhao Xia1, Yunchou Zhao1,
Qiaoshan Chen1, Fanfan Zhang1; 1Inst. of Semiconductors of CAS, China. We propose a universal
method for constructing an N-port non-blocking
optical router, which has minimum optical
switches and therefore is more compact and
more power-efficient. We demonstrate the 4- and
5-port optical routers constructed by this method.
AS4C.3 • 17:00
Highly coherent supercontinuum generation
with picosecond pulses by using pulse compression in a stepwise decreasing dispersion
fiber, Ke Liu1, Qian Li1; 1Peking Univ. Shenzhen
Graduate School, China. We demonstrated highly
coherent supercontinuum generation from a picosecond pulse. Effective pulse compression occurs
in a stepwise decreasing dispersion fiber, and
the compressed pulse can be used for a highly
coherent supercontinuum generation.
AS4D.4 • 17:00
120 Gb/s PAM-8 and 80 Gb/s PAM-4 Optical
Interconnect with a Sub-Volt Driven EAM,
Paraskevas Bakopoulos1, Stefanos Dris1, Nikolaos Argyris 1, Konstantinos Tokas 1, Hercules
Avramopoulos 1; 1National Technical Univ. of
Athens, Greece. A record 40 Gbaud PAM-8
optical interconnect link is demonstrated using a
bandwidth-limited Electro-Absorption Modulator,
driven with sub-volt electrical swing. Employing
digital equalization, transmission of PAM-4 and
PAM-8 over 2000 m of SMF is achieved.
AS4C.4 • 17:15
Simultaneous compression and coherent combination of multiple optical pulses in the same
pulse train using nonlinear optical fibers, Wei
Lu1, Qian Li1, Ping Kong A. Wai2; 1Peking Univ.
Shenzhen Graduate School, China; 2The Hong
Kong Polytechnic Univ., Hong Kong. We demonstrate simultaneous compression and coherent
combination of multiple optical pulses in nonlinear optical fibers with exponentially decreasing
dispersion. Five chirped hyperbolic secant pulses
coalesce into a single pulse with nearly hyperbolic
secant pulse shape.
AS4E.2 • 17:00
Capacity Enhancement of Space-Division Multiplexed Systems by using Statistical Channel
State Information, Amhoud El Mehdi1, Yves
Jaouen1, Ghaya Rekaya Ben-Othman1; 1Telecom
Paristech, France. We investigate the benefits of
channel state information (CSI) against modedependent-loss in optically space division
multiplexed communication systems through
capacity analyses, and propose a statistical CSI
more realistic for real implementation to increase
the capacity.
AS4E.3 • 17:15
Figure of Merit (FOM) for Multicore Fiber-based
Long-haul Transmission Assessment, Li Borui1,
Songnian Fu1, Lin Gan1, Ming Tang1, Zhilin Xu1,2,
Perry Ping Shum2, Deming Liu1; 1School of ptical
and electronic information, Next Generation Internet Access National Engineering Lab (NGIA),
Huazhong Univ. of Sci. & Tech (HUST), China;
2
School of EEE, Nanyang Technological Univ.,
Singapore. We propose a propagation model for
multicore fiber, taking random characteristics of
crosstalk into account. Then the figure of merit in
term of maximum span budget is put forward to
assess corresponding transmission performance.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 38
2015ACP Program.indd 38
11/5/15 3:02 PM
ACP 2015 —Saturday, 21 November
Conference Room N212
Conference Room N206
Conference Room N209
AS4H.3 • 16:45
A Column Generation-Based Optimization of
Anycast and Multicast Traffic in Distance-Adaptive Flexgrid Networks, Miroslaw Klinkowski2,
Krzysztof Walkowiak1; 1Wroclaw Univ. of Technology, Poland; 2National Inst. of Telecommunications,
Poland. The paper presents a column generationbased method for optimization of routing and
spectrum allocation (RSA) in distance-adaptive
flexgrid elastic optical networks (EONs) with
anycast and multicast demands. Numerical experiments show the effectiveness of the method.
AS4I.3 • 16:45
Multiplexed Quasi-static Strain Sensor with
High Sensing Rate and Nano-strain Resolution,
Jiageng Chen1, Qing W. Liu1, Xin Y. Fan1, Zu Y.
He1; 1State Key Laboratory of Advanced Optical
Communication Systems and Networks, Shanghai Jiaotong Univ., China. This paper presents a
multiplexed π-phase shifted FBG based quasistatic strain sensing system. A result of 3 channel
sensing with strain resolution better than 0.8 nε
/√Hz from 0.1 Hz to 50 Hz and sensing rate of 100
times per second is achieved.
AS4F.5 • 17:00
A Novel Timing Offset Estimation Method for
Coherent Optical OFDM Systems, Xinwei Du1,
Jing Zhang1,2, Zhuoran xu1, Changyuan Yu1,3;
1
National Univ. of Singapore, Singapore; 2Univ.
of Electronic Science and Technology of China,
China; 3National Univ. of Singapore (Suzhou)
Research Inst., China. We propose a novel timing
offset estimation method for CO-OFDM systems,
which has smaller MSE and better tolerance to
laser phase noise and chromatic dispersion.
AS4G.3 • 17:00
Modeling Next Generation Transparent Optical Network, Dawei Wang1, Hamid Mehrvar2, yi
qian1, Hongyan Fu1, Dongyu Geng1, Eric Bernier2;
1
Communication Technology Lab, Huawei Technologies Co., Ltd., China; 2Huawei Technology
Canada Co., Ltd., Canada. We report to use a
modified load metric to assess the intra-node
blocking of transparent optical nodes. We compare the M/G/k/k model with both Engset model
and a generic arrival process model with infinite
service time.
AS4H.4 • 17:00
Optical Path Splitting Methods for Elastic Optical Network Design, Tatsuya Hashimoto1, Kenichi Baba2, Shinji Shimojo1; 1Osaka Univ., Japan;
2
Kogakuin Univ., Japan. We propose optical path
splitting methods for elastic optical path design
and investigate the effect on optical path splitting
from the point of view of maximum amount of
frequency spectrum on each fiber.
AS4I.4 • 17:00
Distributed Fiber Vibration Sensing Based on
Phase Extraction from Phase-sensitive OTDR
with Phase Noise Compensation, Yang Guangyao1, Xin y. Fan1, Qing w. Liu1, Zu y. He1; 1Shanghai
Jiao Tong Univ., China. We developed a distributed fiber vibration sensing technology based on
the phase extraction from phase-sensitive OTDR.
By setting auxiliary weak reflection points along
fiber, phase noise can be compensated to realize
a long measurement range.
AS4F.6 • 17:15
Simultaneous OSNR Monitoring and Modulation Format Identification Using Asynchronous
Single Channel Sampling, Faisal Nadeem Khan1,
yi yu2, Ming C. Tan3, Changyuan Yu2, Alan Pak
Tao Lau1, Chao Lu1; 1The Hong Kong Polytechnic
Univ., Hong Kong; 2Department of Electrical and
Computer Engineering, National Univ. of Singapore, Singapore; 3Faculty of Computer Science
and Information Technology, Univ. of Malaya,
Malaysia. We propose asynchronous single channel sampling-based technique for joint OSNR
monitoring and modulation format identification
(MFI). Experimental results demonstrate OSNR
monitoring with mean estimation error of 1.2 dB
and MFI with an accuracy of 99.18%.
AS4G.4 • 17:15
Optimal Content Caching based on Content
Popularity for Content Delivery Networks,
Xiang Li1, Gangxiang Shen1; 1School of Electronic
and Information Engineering, Soochow Univ.,
China. We consider optimal content caching
based on their popularity so as to minimize the
content delivery latency. We develop an Integer
Linear Programming (ILP) optimization model and
a heuristic algorithm to choose cached contents
at each local server.
AS4H.5 • 17:15
Software Defined Clustered-Optical Access
Networking for Ubiquitous Data Center Optical
Interconnection, Hui Yang1, Wei Bai1, Yuanlong
Tan1, Jie Zhang1, Yongli Zhao1, Jianrui Han2, Yi
Lin2, Young Lee2; 1Beijing Univ of Posts & Telecom,
China; 2Huawei Technologies Co., Ltd., China.
We propose a software defined clustered-optical
access networking architecture for data center
services with cross-stratum flow schedule strategy
in ubiquitous data center optical interconnection. The feasibility and efficiency are verified on
OpenFlow-based testbed.
AS4I.5 • 17:15
Optical Fiber Tips Integrated with High-Q
Fano-Resonance Pillar-Array Photonic-Crystals
for High Sensitive Remote Sensing, Daquan
Yang1, Huiping Tian1, Yuefeng Ji1; 1Beijing Univ.
of Posts and Telecommunications, China. A convenient and compact fiber-optic sensor based on
optical fiber-tips integrated with fano-resonance
pillar-array photonic crystal is demonstrated.
Both ultrahigh Q-factor of 1.36×104 and high
sensitivity of 226nm/RIU are achieved, and thus
is promising candidate for remote sensing under
harsh conditions.
Conference Room N210
AS4J.2 • 17:00 Invited
Semiconductor Integrated Devices for ModeLocking and Wavelength Conversion, Marc
Sorel1; 1Univ. of Glasgow, UK. We will present
recent research work on integrated III-V lasers and
silicon micro-ring resonators for the generation of
high repetition rate mode-locking and wavelength
conversion by efficient four-wave mixing.
Saturday, 21 November
AS4F.4 • 16:45
Carrier phase estimation using digital pilottone in a faster than Nyquist WDM Transmission
System, Dongwei D. Pan1, Chengcheng Li1, Yiqiao Feng1, Jin Yuan1, Xianfeng Tang1, Xiaoguang
Zhang1; 1Beijing Univ of Posts & Telecom, China.
We propose a carrier phase estimation method
using unequaled digital pilot-tone in a faster than
Nyquist-WDM transmission system, in which the
digital pilot-tone is employed to estimate laser
phase noise induced by the lasers located at
the transmitter (Tx) and at the receiver (Rx) ends.
Conference Room N203
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 39
2015ACP Program.indd 39
11/5/15 3:02 PM
ACP 2015 —Saturday, 21 November
Saturday, 21 November
Conference Room N202
AS4A.5 • 17:45
Reconfigurable nonblocking 5-port silicon
thermo-optic optical router based on MachZehnder optical switches, Yunchou Zhao1, Hao
Jia1, Yuhao Xia1, Qiaoshan Chen1, Lei Zhang1,
Jianfeng Ding1, Lin Yang1; 1State Key Laboratory
on Integrated Optoelectronics, Inst. of Semiconductors, Chinese Academy of Sciences, China.
We demonstrated a reconfigurable non-blocking
five-port silicon thermo-optic optical router, which
is composed of 8 Mach-Zehnder optical switches.
The optical signal-to-noise ratio is characterized
and wavelength division multiplexing data transmission has been performed.
Conference Room N204/205
Conference Room N208
AS4B.3 • 17:30
Low Polarization-Dependent-Loss Silicon
Photonic Trident Edge Coupler Fabricated by
248 nm Optical Lithography, Xin Tu1, Patrick
Dumais2, Ming Li1, Dominic Goodwill2, Hongyan
Fu1, Dongyu Geng1, Eric Bernier2; 1Huawei Technologies Co., Ltd., China; 2Huawei Technologies
Canada Co. Ltd., Canada. Trident edge couplers
were fabricated using optical lithography. TE and
TM coupling loss with lensed fiber were improved
by 0.2 dB and 0.3 dB compared to a single-taper
coupler. PDL was improved by 0.1 dB.
AS4C.5 • 17:30
Magnetic-field Measurement Using Magnetooptic Nonlinear Optical Loop Mirror, Feng
Wen 1 , Bao-Jian Wu 1 , Xing-yu Zhou 1 , Yong
Geng1, Kun Qiu1; 1Univ. of Electronic Science
and Technology of China, Key Lab of Optical
Fiber Sensing and Communications, Ministry of
Education, China. Magnetic-field measurement is
achieved in the magneto-optic nonlinear optical
loop mirror (MO-NOLM), which the Faraday and
Kerr nonlinear effects of fibers are considered. The
maximum magnetic-field sensitivity is 263.93dB/T
with the pump power of 24.8dBm.
AS4B.4 • 17:45
Grating Coupler between Perfectly-Vertical
Fiber and Si Wire Waveguide Using Tilted
Membrane Structure, Liu Liu1, Chenzhao Zhang1,
Chichao Jin1; 1South China Academy of Advanced
Optoelectronics, South China Normal Univ.,
China. A grating coupler on silicon-on-insulator
waveguide for perfectly-vertical fiber is proposed
based on titled membrane structure. A peak
coupling efficiency of 40% and 1dB bandwidth
of 40nm are obtained for perfectly-vertical fiber.
Back-reflections to the SOI waveguide mode and
the fiber mode are 2.7% and 2.2%, respectively.
AS4C.6 • 17:45
High Resolution Optical Spectrum Measurement Utilizing a Dual-stage SBS-based Filter,
Ke Zhang1,2, Changjian Ke1,2, Deng Pan1,2, Deming
Liu1,2; 1National Engineering Laboratory for Next
Generation Internet Access System, Huazhong
Univ. of Science and Technology, China; 2School
of Optical and Electronic Information, Huazhong
Univ. of Science and Technology, China. A dualstage SBS-based filter for high resolution optical
spectrometry is proposed. By mitigating the deterioration resulted from the gain saturation and
the out-of-band signal components, a spectral
resolution of ~25 MHz and a sensitivity of ~-65
dBm are achieved simultaneously.
Conference Room N207
Conference Room N211
AS4E.4 • 17:30 Invited
Towards Higher Density Space Division
Multiplexed Transmission Systems, Chigo M.
Okonkwo 1; 1Eindhoven Univ. of Technology,
Technische Universiteit Eindhoven, Netherlands.
By exploiting compact multiplexers, advanced
coding and multi-input multiple output digital
signal processing schemes, high spatial channel
count to achieve high capacity transmission in
emerging state-of-the-art multi-mode and/or
multicore few-mode fibers is demonstrated.
18:00–19:00 Welcome Reception, Room N201, HKCEC
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 40
2015ACP Program.indd 40
11/5/15 3:02 PM
ACP 2015 —Saturday, 21 November
Conference Room N206
Conference Room N203
Conference Room N209
Conference Room N210
AS4F.7 • 17:30
Demonstration of Optical Signal to Noise Ratio
Monitoring Based on Sagnac Interferometer
in Polarization Division Multiplexed Systems,
Yan Li1, Yi Yu1, Zhuoran Xu1, Changyuan Yu1,2,
Pooi-yuen Kam1; 1National Univ. of Singapore,
Singapore; 2National Univ. of Singapore (Suzhou)
Research Inst., China. In this paper, we demonstrate the OSNR monitoring method using
Sagnac interferometer (SI) in polarization division multiplexed (PDM) systems. The proposed
method is investigated with power mismatch,
polarization dependent loss (PDL) and filtering
frequency offset.
AS4G.5 • 17:30 Invited
A Cooperative Electronic and Optical Network:
Architecture and Key Technologies, Weisheng
Hu1, Tong Ye1, Lilin Yi1, Weiqiang Sun1, Hao He1;
1
Shanghai Jiao Tong Univ., China. This paper will
discuss the characteristics and role of the electronic and photonic technologies for the future
networks, including mega data center network,
backbone and metro network, and broadband
access network as well.
AS4H.6 • 17:30
Sparse-Splitting Multicasting in Elastic Optical Networks, Krzysztof Walkowiak1, Andrzej
Kasprzak1, Massimo Tornatore2; 1Wroclaw Univ. of
Technology, Poland; 2Department of Electronics,
Information, and Bioengineering, Politecnico di
Milano, Italy. The impact of the sparse-splitting
constraint on static multicast traffic optimization
in Elastic Optical Networks is studied. Results of
numerical experiments are presented to show
the impact in terms of spectrum and regenerator usage.
AS4I.6 • 17:30
Distributed Sensing using Bi-Directional
BOTDA System, Nan GUO1,2, Liang WANG1,2,
Jie WANG1,3, Chao JIN1,2, Hwa Yaw Tam1,3, A. Ping
Zhang1,3, Chao Lu1,2; 1Photonics Research Centre,
The Hong Kong Polytechnic Univ., Hong Kong;
2
Department of Electronic and Information Engineering, The Hong Kong Polytechnic Univ., Hong
Kong; 3Department of Electrical Engineering,
The Hong Kong Polytechnic Univ., Hong Kong.
A novel Bi-Directional Brillouin time domain analyzer (BD-BOTDA) is proposed and experimentally
demonstrated by simultaneously detecting Brillouin signals over each half of the whole fiber at
two wavelengths separately, achieving over 80 km
sensing range with 2m spatial resolution.
AS4J.3 • 17:30
Cross-phase Modulation (XPM)-induced All
Optical Switching in a Coupling-tuned Silicon
Ring Resonator, Xiaomeng Sun 1, Mahmoud
Jazayerifar1, Linjie Zhou2, Lars Zimmermann1,
Klaus Pertermann1; 1Technische Universität Berlin,
Germany; 2Shanghai Jiao Tong Univ., China. We
numerically investigate an ultrafast all-optical
switching device with an integrated silicon microring and a Mach-Zehnder (MZ) coupler. The
device exhibits pico-second switching speed with
only 0.09π of phase shift achieved by cross-phase
modulation (XPM).
AS4H.7 • 17:45
Demonstration of BGP Interworking in Hybrid
SPTN/IP Networks, Junjie Zang1, Rentao Gu1,
Han Li2, Youqiang Hu1, Lei Wang2, Yuefeng Ji1, Qin
Li2, Jie Zhang1, Lin Bai1; 1Beijing Univ. of Posts and
Telecomm, China; 2China Mobile Research Inst.,
China. This paper proposes BGP interworking
and inter-communication architecture and mechanisms for hybrid SPTN/IP, and the extended Ryu
based controllers realize BGP information sharing
between SPTN network islands and IP networks
in a multi-domain testbed.
AS4I.7 • 17:45
Novel Detection of Heavy Metals in Water using Supercontinuum Broadband Laser Source,
Peh Chiong Teh1, Yi Heng Ho1, Sheng Chyan
Lee1, Po Kim Lo1, Koon Chun Lai1, Kim Ho Yeap1,
Kok Leng Tey2; 1Universiti Tunku Abdul Rahman,
Malaysia; 2Kumpulan Abex Sdn Bhd, Malaysia.
We report a novel detection technique for two
types of common heavy metal contaminants in
water, copper sulphate and ferric chloride, by
analyzing the transmittance measurement of a
supercontinuum laser source onto the samples.
AS4F.8 • 17:45
Amplitude Feature Based Optical Modulation
Format Identification for Digital Coherent
Receivers Using Subtraction Clustering Algorithms, Yukui LI1, Jie Liu1, Tianyan Zhou1, Pengyu
Chen1, Kangping Zhong2; 1Sun Yat-Sen Univ.,
China; 2The Hong Kong Polytechnic Univ., Hong
Kong. An optical modulation format identification
technique is proposed based on signal amplitude
features and clustering algorithms. Successful
classification among five different polarizationmultiplexed modulation signals is demonstrated
in simulation and experiment.
Saturday, 21 November
Conference Room N212
18:00–19:00 Welcome Reception, Room N201, HKCEC
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 41
2015ACP Program.indd 41
11/5/15 3:02 PM
ACP 2015 — Sunday, 22 November
Conference Room N202
Conference Room N204/205
Conference Room N208
Conference Room N207
Conference Room N211
08:30–18:00 Registration Open, Room N201, HKCEC
08:30–18:00 Industry Exhibition, Room N201, HKCEC
Sunday, 22 November
08:30–10:00
ASu1A • Optical Materials
Presider: Siyuan Yu, University of
Bristol, UK and Sun Yat-sen University,
China
08:30–10:00
ASu1B • Photonic Integrated
Circuits II
Presider: Graham Reed; Univ. of
Southampton, UK
ASu1A.1 • 08:30
Innovative Materials and Processing Approaches for Nanostructured Photonic Systems,
Fabien Sorin4, Arthur LeBris4, Barbara Brudieu1,2,
Fatah Maloum2, François Guillemot3, Jeremie
Teisseire2, Thierry Gacoin1; 1LPMC-CNRS Ecole
Polytechnique, France; 2CNRS/Saint-Gobain Recherche, France; 3PCRS, Saint-Gobain Recherche,
France; 4Inst. of Materials, Ecole Polytechnique
Fédérale de Lausanne, Switzerland. We demonstrate innovative simple and scalable fabrication
approaches to realize large area nanostructured
Photonic systems. We show in particular novel
all-dielectric Distributed Bragg Reflectors and the
template dewetting of a thin Silver layer to realize
ordered metallic nanostructures.
ASu1B.1 • 08:30 Invited
Multi-functional Silicon Photonic Integrated
Circuits with Ultra-compact Arrayed-waveguide
Gratings, Daoxin Dai1; 1Center for Optical &
electromagnetic resea, Zhejiang Univ., China. This
paper gives a review for the recent work on silicon
photonic integrated circuits based on ultra-compact arrayed-waveguide gratings (AWGs), e.g.,
hybrid (de)multiplexers with multi-wavelengths
and multimodes or dual-polarizations, reconfigurable optical add-drop multiplexers integrating
AWGs with optical switches, etc.
08:30–10:00
ASu1C • Fiber Lasers I
Presider: Andy Chong; Univ. of
Dayton, USA
ASu1C.1 • 08:30 Invited
Nonlinear Deep Tissue Imaging with Advanced
Soliton Sources, Chris Xu1; 1School of Applied
and Engineering Physics, Cornell Univ., USA.
Deep tissue multiphoton microscopy (MPM) using solitons generated from optical fibers are reviewed. The main characteristics of the excitation
source for deep tissue MPM, such as wavelength,
pulse energy, and repetition rate, are discussed.
08:30–10:00
ASu1D • Plasmonics and
Metamaterials
Presider: Ci-Ling Pan; National Tsing
Hua Univ., Taiwan
ASu1D.1 • 08:30 Invited
Plasmonic Metamaterials for Nanophotonics,
Anatoly . Zayats1; 1Department of Physics, King’s
College London, UK. Hyperbolic plasmonic metamaterials will be discussed for achieving active
nanophotonic functionalities. The focus will be
on the applications in tailoring ultrafast nonlinear
optical properties, controlling light emission,
subwavelength waveguiding, and polarisation
and dispersion management.
ASu1A.2 • 08:45
Optimization of optical gain in composite
materials containing Rh6G dye and gold
nanoparticles, Elena Vasileva1, Fei Ye1, Aleksandrs
Marinins1, Sebastián Etcheverry2,3, Muhammet
Toprak1, Sergei Popov1; 1Materials and Nano Physics, Royal Inst. of Technology, Sweden; 2Applied
Physics, Royal Inst. of Technology, Sweden; 3Fiber
Optics, Acreo Swedish ICT AB, Sweden. The
existence of metal nanoparticles in a dye material
can lead not only to quenching or enhancement
of dye luminescence, or random lasing action, but
also to the change of the fundamental material
characteristic as optical gain.
08:30–09:45
ASu1E • Transceivers I
Presider: Zhaohui Li, Jinan Univ.,
China
ASu1E.1 • 08:30
Experimental 32Gbaud OFDM transmission
using a 3-bit DAC, Nuno M. Andre1, Hadrien
Louchet1, Volker Filsinger2, Erik Hansen2, Andre Richter 1; 1VPIphotonics, Germany; 2SHF
Communication Technologies, Germany. We
experimentally accomplish high baudrate OFDM
transmission using a 60Gbaud-capable 3-bit DAC.
We investigate the strategies necessary to achieve
successful electrical and optical transmission and
determine the limitations of OFDM transmission
for higher resolutions.
ASu1E.2 • 08:45
Polarization-Diversity All-Optical Modulation
Format Conversion from QPSK to BPSK Using
FWM, Naho Yoshioka1, Rina Ando1, Hiroki Kishikawa1, Nobuo Goto1; 1Tokushima Univ., Japan.
The authors have previously proposed all-optical
modulation format conversion system from QPSK
to BPSK. Since the performance depends on
the incident signal’s polarization, we propose a
polarization-diversity system to realize polarization independent operation.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 42
2015ACP Program.indd 42
11/5/15 3:02 PM
ACP 2015 — Sunday, 22 November
Conference Room N212
Conference Room N206
Conference Room N203
Conference Room N209
Conference Room N210
08:30–18:00 Registration Open, Room N201, HKCEC
08:30–18:00 Industry Exhibition, Room N201, HKCEC
08:30–10:00
ASu1F • High Spectral Efficiency
Modulation Formats
Presider: Xian Zhou, University of
Science and Technology Beijing,
China & The Hong Kong Polytechnic
University
ASu1G.1 • 08:30 Invited
Mode-Division Multiplexed Access Networks,
Guifang Li1; 1Bldg. 53, Univ. of Central Florida,
USA. Single-mode splitters lack conservation
of degrees of freedom and when they are used
in PONs, they introduce combining losses. The
arrival of few-mode optics can eliminate the combining loss and thus improve PON size.
08:30–10:00
ASu1H • ONoC, FSO, VLC, Hybrid
OPS/OCS
Presider: Jie Zhang; Beijing Univ of
Posts & Telecom, China
ASu1H.1 • 08:30
A Nesting Ring Optical Network on Chip
(ONoC) Architecture for Multi-chip Systems,
Wenzhe Li1, Shanguo Huang1, Yu Zhou1, Shan Yin1,
Jie Zhang1, Wanyi Gu1; 1BUPT, China. We propose
a novel architecture of optical network-on-chip
(ONoC) for multi-chip systems, which includes
intra-chip network and chip-to-chip network.
Simulation results show that the architecture have
good performance on throughput and End-toEnd (ETE) delay.
08:30–10:00
ASu1I • Therapeutics and In Vivo
Imaging
Presider: Melissa Mather, Keele
University, UK
ASu1I.1 • 08:30 Invited
InCVAX - A Biophotonics Approach Based
Cancer Therapy, Wei R. Chen1; 1Univ Central
Oklahoma, USA. A biophotonics based in situ
autologous whole cell cancer vaccine (inCVAX)
is developed to induce systemic tumor-specific
immune responses using a combination of local
laser phototherapy and immunotherapy.
ASu1H.2 • 08:45
A New Optical Network-on-Chip Architecture
for Chip Multiprocessor, Xiuhua Li 1, Kang
Wang1, Ke Chen2, Huaxi Gu1, Liang Song3, Qinfen
Hao3; 1State Key Lab of ISN, China; 2Huawei Technologies Co.Ltd., China; 3Huawei Technologies
Co.Ltd., China. A screwy torus topology (STorus) is
proposed to improve the performance of network
that memory access oriented. STorus divides an
optical network into two subnets. Comparisons
between STorus and mesh are made, connecting
with 4 memory controllers.
08:30–10:00
ASu1J • Radio over Fiber I
Presider: Christina Lim, University of
Melbourne, Australia
ASu1J.1 • 08:30
A 60-GHz RoF System Providing 5-Gbps BPSK
Signal Employing LMS Equalizer, Siming Liu1,
Yanbin Kou1, Huiping Tian1, Si Liu1, Daquan Yang1,
Yuefeng Ji1; 1Beijing Univ. of Post and Telecom,
China. A 60-GHz RoF system transmitting 5-Gbps
BPSK signal employing LMS equalizer is experimentally demonstrated. The results prove that
the LMS equalizer with appropriate parameters
can substantially improve the BER performance
of the system.
ASu1J.2 • 08:45
Demonstration of 4Gbit/s Duobinary Ka-Band
Hybrid Photonic-Wireless Transmission, Simon
Rommel1, Lilin Yi2, Mengyue Shi2, Idelfonso Tafur
Monroy1, Juan Jose . Vegas Olmos1; 1Department of Photonics Engineering, Technical Univ.
of Denmark, Denmark; 2State Key Laboratory of
Advanced Optical Communication Systems and
Networks, Shanghai Jiao Tong Univ., China. We
demonstrate transmission of a 4Gbit/s duobinary
signal over a Ka-band hybrid photonic-wireless
link consisting of 12.5km SMF and 2m wireless
distance, using RF carrier frequencies aligned
with the Ka-band spectrum allocations for mobile
communications.
Sunday, 22 November
ASu1F.1 • 08:30 Invited
Improving Spectral Efficiency in Direct-Detected OFDM System, Kai-Ming Feng1, Jhih-Heng
Yan2, You-Wei Chen2, Wei-Ren Peng3; 1Inst. of
Communications Engineering, National Tsing
Hua Univ., Taiwan; 2Inst. of Photonics Technologies, National Tsing Hua Univ., Taiwan; 3Huawei
Technologies Co., Ltd., USA. The direct-detected
optical OFDM spectral efficiency has been
enhanced with three reviewed solutions, a multiband scheme, a receiver DSP scheme, and a
PDM scheme. A self-polarization diversity PDM
scheme guarantees SE enhancement with conventional receivers.
08:30–10:00
ASu1G • Access Networks II
Presider: Calvin C. K. Chan; The
Chinese Univ. of Hong Kong, Hong
Kong
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 43
2015ACP Program.indd 43
11/5/15 3:02 PM
Sunday, 22 November
ACP 2015 — Sunday, 22 November
Conference Room N202
Conference Room N204/205
Conference Room N208
Conference Room N207
Conference Room N211
ASu1A.3 • 09:00
Technological Solutions for Embedded Oxidebased Confinement in New Photonic III-V
Device Architectures, Guilhem Almuneau 1,
Stéphane Calvez1, Youness Laaroussi1, Fares
Chouchane1, Gaël Lafleur1, Olivier GauthierLafaye1, Chantal Fontaine1; 1LAAS-CNRS / Université de Toulouse, France. New technological
capabilities of the selective wet oxidation process
of AlGaAs are presented, including an original
approach based on epitaxial regrowth on partially
oxidized layers. This opens the path to complex
integrated 3D structuring for photonic devices,
such as oxide-based high contrast grating VCSEL
and non-linear optical resonators.
ASu1B.2 • 09:00
Silicon Nitride-based Integrated Photonic
Devices Suitable for Operating in the Visible
to Infrared Wavelength Range, Zengkai Shao1,
Yujie Chen1, Hui Chen1, Zeming Fan1, Lin Liu1,
Chunchuan Yang1, Lidan Zhou1, Yanfeng Zhang1,
Siyuan Yu1; 1Sun Yat-sen Univ., China. Silicon
nitride-based integrated photonic devices, including DBRs, waveguides, microdisks, ring resonators, and photonic crystal nanocavities have also
been demonstrated, suggesting that they are
suitable for operating in the visible to infrared
wavelength range.
ASu1D.2 • 09:00
Slot Hybrid Plasmonic Ring Resonator Used
for Optical Sensors and Modulators, Xu Sun1,2,
Lars Thylén1,2, Lech Wosinski1,2; 1KTH, Sweden;
2
Joint Research Center of Photonics of Royal Inst.
of Technology (KTH) and Zhejiang Univ., China.
We theoretically and experimentally investigate
performance of slot hybrid plasmonic rings, with
better sensitivity regarding tested liquids than
Si-based ones. This component can also be
employed as high-efficiency optical modulators
with active nonlinear material.
ASu1E.3 • 09:00 Invited
Plasmonic Modulators, Yuriy Fedoryshyn1, Claudia Hoessbacher1, Christian Haffner1, Wolfgang
Heni1, Christian Hafner1, Juerg Leuthold1; 1Inst. of
Electromagnetic Fields (IEF), ETH Zurich, Switzerland. Plasmonic modulators have developed into
a new generation of compact low-power highspeed optoelectronic devices, becoming strong
competitors to conventional approaches. In this
paper we review the so-called hybrid photonicplasmonic Mach-Zehnder modulators and their
all-plasmonic successors.
ASu1A.4 • 09:15
Improving Performance of Organic Solar Cells
with PEG-coated Gold Nanorods Doped in the
Active Layer, Peiqian Tong1,2, Yanxia Cui1,2, Yuying
Hao1, Qiuqiang Zhan3, Qinjun Sun1, Furong Zhu2;
1
Taiyuan Univ. of Technology, China; 2Hong Kong
Baptist Univ., Hong Kong; 3South China Normal
Univ., China. It is demonstrated that the performance of organic solar cells can be improved
by doping PEG-coated Gold Nanorods in the
active layer with 10.6% increase in the power
conversion efficiency.
ASu1B.3 • 09:15
Bandwidth-Flexible and Wavelength-Selective
SOI Filtering Element for Flexible-Grid Applications, Nikos Iliadis1, Giannis Kanakis1, Nikolaos Argyris1, George Gotz2, Ioannis Lazarou1, Dimitrios
Kalavrouziotis1, Jens Bolten2, Thorsten Wahlbrink2,
Anna Lena Giesecke2, Dimitrios Apostolopoulos1,
Hercules Avramopoulos1; 1National Technical
Univ. of Athens, USA; 2AMO GmbH, Germany.
We demonstrate a flexible filtering element based
on an MZI-assisted 2nd order micro-racetrack on
SOI. Dual channel data transmission experimental
results revealed excellent performance in terms of
wavelength selectivity and bandwidth flexibility.
ASu1C.2 • 09:00 Invited
Subwavelength Imaging and Cavities Using
Wire Array Fibres, Alexander . Argyros1, Jessienta
Anthony1, Xiaoli Tang1,2, Mohanad Jamal1,3, Hadi
Al-Janabi3, Simon Fleming1, Boris Kuhlmey1,4;
1
Inst. of Photonics and Optical Science (IPOS),
School of Physics, The Univ. of Sydney, Australia;
2
School of Information Science and Engineering,
Fudan Univ., China; 3Inst. of Laser for Postgraduate Studies, Univ. of Baghdad, Iraq; 4Centre for
Ultrahigh bandwidth Devices for Optical Systems
(CUDOS), The Univ. of Sydney, Australia. We
demonstrate the use of wire array metamaterial
fibres for the magnification of images from below
to above the diffraction limit, as well as THz field
concentration in subwavelength cavities formed
inside the fibres.
ASu1A.5 • 09:30
Electro-optical response of P3HT nanofibers in
liquid solution, Gleb Lobov1, Yichen Zhao1, Aleksandrs Marinins1, Min Yan1, Jiantong Li1, Muhammet Toprak1, Abhilash Sugunan2, Lars Thylén3,1,
Lech Wosinski1, Mikael Östling1, Sergei Popov1;
1
KTH, Sweden; 2Materials and Surfaces Unit, SP
Technical Research Inst. of Sweden, Sweden;
3
Hewlett-Packard Laboratories, USA. AC electric
poling introduces in P3HT nanofibers anisotropic
electro-optical response and birefringence. Along
with birefringence, such material exhibits strong
amplitude modulation which makes it more efficient alternative to liquid crystals.
ASu1B.4 • 09:30
Demonstration of a Polarization Insensitive
Non-Uniform Grating Coupler, Ashenafi Kiros
Medhin1,2, Fuad E. Doany2, Jeong Hwan Song2,3,
Nicolas Dupuis2, Benjamin G. Lee2, Frank R.
Libsch2, Clint Schow2; 1Technical Univ. of Denmark,
Denmark; 2IBM Thomas J. Watson Research
Center, USA; 3IMEC, Belgium. We propose a
non-uniform 1-D polarization independent grating coupler based on the intersection of TE and
TM gratings. We measure polarization dependent
loss < 0.8dB with TE and TM coupling efficiency
of -7.8dB and -8.0dB, respectively.
ASu1C.3 • 09:30
Bound States of Group-Velocity Locked Vector Solitons in A Passively Mode-Locked Fiber
Laser, Yiyang Luo1, Qizhen Sun1, Luming Zhao2,
Zhichao Wu1, Zhilin Xu1, Songnian Fu1, Deming
Liu1; 1Huazhong Univ of Science and Technology,
China; 2Jiangsu Key Laboratory of Advanced Laser
Materials and Devices, School of Physics and
Electronic Engineering, Jiangsu Normal Univ.,
China. We report an experimental observation
of bound states of group-velocity locked vector
solitons (GVLVSs) in a passively mode-locked fiber
laser. Bound states of GVLVSs with various soliton
separations are demonstrated for the first time.
ASu1D.4 • 09:30
Plasmonic Integrated Circuit Operating with
Coherent Plasmonic Signals, Hiroki Sakai 1,
Shinya Okahisa1, Yutaro Nakayama1, Kotaro Nakayama1, Masashi Fukuhara1,2, Yuya Ishii1, Mitsuo
Fukuda1; 1Toyohashi Univ. of Technology, Japan;
2
JSPS Research Fellow, Japan. We designed
and fabricated a plasmonic integrated circuit
having multiple waveguides for surface plasmon
polaritons and confirmed its coherent operation.
ASu1D.3 • 09:15
Surface Plasmon Polariton Frequency Modulation Using LiNbO3, Takehiro Mano1, Masashi
Fukuhara1,2, Yuya Ishii1, Mitsuo Fukuda1; 1Toyohashi Univ. of Technology, Japan; 2JSPS Resarch
Fellow, Japan. Frequency modulation of surface
plasmon polaritons propagating at the Au/LiNbO3
interface was analyzed in detail. The intensity of
the modulated signal varied according to the
LiNbO3 crystal orientation, slit structure, modulator length, and modulation voltage.
ASu1E.4 • 09:30
An Optimized Full-parallel Variable-length FFT
Design for Software-defined Optical OFDM
Receivers, Qi Wu1, Junjie Zhang1; 1Shanghai
Univ., China. An optimized full-parallel variablelength up to 1024-point FFT design for softwaredefined optical OFDM transceivers is proposed.
FFT stage-dependent optimized bit resolution
maps are identified which can effectively release
hardware resource requires and direct practical
applications.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 44
2015ACP Program.indd 44
11/5/15 3:02 PM
g
o
r
ACP 2015 — Sunday, 22 November
Conference Room N206
Conference Room N203
Conference Room N209
Conference Room N210
ASu1F.2 • 09:00
Eight-dimensional Modulation Format Based
on Polarization Multiplexed 16-QAM Constellations, Xiqing Gao1, Zilong He1, Wentao Liu1,
Xue Chen1, Bailin Shen2; 1Beijing Univ of Posts
& Telecom, China; 2ZTE corporation, China. We
propose an 8-dimensional modulation format
based on polarization multiplexed squared 16QAM constellations. We compare 8D-16QAM,
128-SP-QAM and PM-16QAM using numerical
simulations in WDM transmission scenarios at the
same baud rates and net bit rates.
ASu1G.2 • 09:00 Invited
On the Placement of BBU Hotels in An Optical
Access/Aggregation Network for 5G Transport,
Francesco Musumeci1, Camilla Bellanzon1, Nicola
Carapellese1, Massimo Tornatore1, Achille Pattavina1, Stéphane Gosselin2; 1Dept. of Electronics,
Info., and Bioeng., Politecnico di Milano, Italy;
2
Orange Labs Networks, France. We discuss the
placement of BBU-Hotels over optical access/aggregation networks for 5G backhaul, comparing
OTN and Overlay fronthaul solutions. Different
capacity and latency constraints lead to nonunivocal optimal choices to minimize the number
of BBU-Hotels.
ASu1H.3 • 09:00
Reliable Routing Based on Bidirectional
Waveguide Link for 3D Optical Network-onChip, Weigang Hou1, Pengxing Guo1, Lei Guo1,
Dandan Huang1, Qing Cai1; 1Northeastern Univ.
(China), China. To ensure the operating reliability of optical network-on-chips, we design a
novel fault-tolerant routing based on bidirectional
waveguide link. Simulation results demonstrate
our method performs well in terms of improving
signal-to-noise ratio.
ASu1I.2 • 09:00
InCVAX as a Novel In Situ Autologous Cancer
Vaccine, Samuel Siu Kit Lam1, FeiFan Zhou2,
Tomas Hode1, Robert Nordquist2,1, Luciano Alleruzzo1, Joseph Raker1, Wei R. Chen2; 1Immunophotonics, Inc., USA; 2Univ. of Central Oklahoma,
USA. Immunophotonics is developing inCVAX,
an in situ autologous cancer vaccine, which
combines thermal laser with immunotherapy for
the treatment of metastatic cancers. Promising
results have emerged in the preclinical and early
clinical studies.
ASu1J.3 • 09:00
Measuring the Residual Phase Noise of Long
Microwave Optical Links and Electro-Optic
Modulators, Zhewei Cao1, Chun Yang1; 1Southeast Univ., China. A two-tone method for measuring the residual phase noise (RPN) of microwave
optical links (MOL) and modulators is proposed.
The RPN of a 6-km MOL is −130 dBc/Hz at 1-kHz
and −140 dBc/Hz at 10-kHz.
ASu1H.4 • 09:15
Reliable-Fair Resource Allocation Schemes for
Snowy Free Space Optical (FSO) Networks,
Abdallah Shawky Ghazy2,1, Hossam A. I. Selmy1,2,
Hossam M. H. Shalaby2,1; 1Cairo Univ., Egypt; 2EJUST, Egypt. New resource allocation schemes
are proposed to improve the performance of
snowy cooperative FSO networks. Each scheme
is formulated as multi-objective optimization
problem. The simulation results indicate the
superior performance over existing relayed ones.
ASu1I.3 • 09:15
In vivo mouse tissue imaging by depth-enhanced optical coherence tomography using
complex wavefront shaping, Hyeonseung Yu1,
Jaehyun P. Lee2, KyeoReh Lee1, Yong Jeong2,
YongKeun Park1; 1Department of Physics, Korea
Advanced Inst. of Science and Technology, Korea
(the Republic of); 2Department of Bio and Brain
Engineering, Korea Advanced Inst. of Science
and Technology, Korea (the Republic of). The
penetration depth enhancement using spectral
domain optical coherence tomography (SD-OCT)
with wavefront shaping is demonstrated for in
vivo mouse tissues. The multiple layer structures
of mouse tail tissues are clearly imaged with the
present method by suppressing multiple light
scattering.
ASu1J.4 • 09:15
Wide-band RF photonic link based on analog
linearization, Xiaodong Liang 1, Yitang Dai1,
Feifei Yin1, Jianqiang Li1, Yue Zhou1, Jian Dai1,
Kun Xu1; 1Beijing Univ. of Posts and Telecoms,
China. By modulating the extracted baseband
signal with the distorted fundamental band, an
analog-based linearization for RF photonic link is
proposed and demonstrated. SFDR of 125.5 dB
within 1-Hz bandwidth is achieved with 21.1-dB
improvement.
ASu1H.5 • 09:30
Visible-Light-Based Hybrid Communication
and Positioning System for Radio-FrequencyProhibited Environment, Zhitong Huang1, Kaiyu
Zhuang1, Runmei Zhao1, Yuefeng Ji1; 1BUPT IPOC,
China. A hybrid system is designed and experimentally demonstrated which simultaneously
realizes the real-time visible light positioning and
circumferential visible light communication for
the human groups or intelligent devices working
in the radio-frequency prohibited environment.
ASu1I.4 • 09:30
Optogenetic regulation of cellular functions
through an intact skull using wavefront shaping,
Jonghee Yoon1, Minjee Lee2, KyeoReh Lee1, Nury
Kim2, Jin Man Kim3, Jongchan Park1, Hyeonseung
Yu1, Chulhee Choi4, Won Do Heo2, YongKeun
Park1; 1Physics, KAIST, Korea (the Republic of);
2
Biological Science, KAIST, Korea (the Republic
of); 3Graduate School of Medical Science and
Engineering, KAIST, Korea (the Republic of);
4
Bio and Brain Engineering, KAIST, Korea (the
Republic of). We present in vitro demonstration
that an illumination with a shaped wavefront
formed optical focus through an intact skull, and
it enabled spatiotemporal regulation of cellular
activities by activating photoactivatable proteins
beyond a skull layer.
ASu1J.5 • 09:30 Invited
Microwave Photonics Technologies Supporting
High Capacity and Flexible Wireless Communications Systems, Xiaofeng Lu1, Anna Tatarczak1,
Simon Rommel1, Sebastian Rodriguez1, Juan
Jose . Vegas Olmos1, Idelfonso Tafur Monroy1,2;
1
Technical Univ. of Denmark, Technical Univ. of
Denmark, Denmark; 2ITMO Univ., Russian Federation. Emerging 5G wireless systems require
technologies for increased capacity, guarantee
robustness, low latency and flexibility. We review
a number of approaches to provide the above
based on microwave photonics and hybrid optical
fiber-wireless communication techniques.
ASu1F.3 • 09:15
Improved Offset-QAM OFDM Scheme with
Enhanced Dispersion Tolerance, Jian Zhao1,
Lian-Kuan Chen2; 1Tyndall National Inst. , Ireland;
2
The Chinese Univ. of Hong Kong, Hong Kong.
We propose a novel offset-QAM OFDM scheme
to improve the dispersion tolerance to that of
one subcarrier without cyclic prefix. This scheme
exhibits greatly enhanced spectral efficiency
compared to CP-OFDM and lower complexity
than RGI-OFDM.
ASu1F.4 • 09:30 Invited
Spectrally Efficient Optical Communications,
Luca Poti1, Gianluca Meloni1, Francesco Fresi2,
Antonio Malacarne2; 1Consorzìo Nazìonale Interunìversìtarìo per le Telecomunicazioni, CNIT,
Italy; 2Scuola Superiore Sant’Anna, Italy. The
paper reviews most diffuse techniques used for
increasing spectral efficiency in optical communication, considering different network segments.
Time-frequency packing will be described,
and compared to Nyquist wavelength-division
multiplexing and orthogonal frequency-division
multiplexing.
ASu1G.3 • 09:30
Reducing Delay Penalties in Energy-Efficient
TWDM PON through Reconfiguration Threshold Adaptation, Luca Valcarenghi1, Koteswararao
Kondepu1, Piero . Castoldi1; 1Scuola Superiore
Sant’Anna, Italy. In energy efficient TWDM-PONs
the threshold at which OSUs are turned ON/OFF
heavily impacts the average frame delay. The
proposed adaptive threshold policy reduces the
impact of reconfiguration on the average frame
delay with limited penalties on energy efficiency.
Sunday, 22 November
Conference Room N212
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 45
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ACP 2015 — Sunday, 22 November
Conference Room N202
Conference Room N204/205
Conference Room N208
Conference Room N207
ASu1A.6 • 09:45
Anti-Glare and Depolarized Nano-Porous Anodic Aluminum Oxide Film, Cheng-Hsuan Hsieh1,
Yung-Hsiang Lin1, Chun-Wei Tseng1, Gong-Ru .
Lin1; 1National Taiwan Univ., Taiwan. Anti-glare
and depolarized features of nano-porous anodic
aluminum oxide (AAO) film with controllable porosity are demonstrated with porosity dependent
scattering angle of 4o accompanied with increased
TM/TE polarization ratio of 0.47 obtained under
TE incidence.
ASu1B.5 • 09:45
Silicon Slot Waveguide with Low Transmission
and Bending Loss at ~ 1 μm, Xiangdong Li1, Xue
Feng1, Yidong Huang1; 1Tsinghua Univ., China.
Silicon slot waveguide operating at 1064 nm is
experimentally demonstrated. The transmission
loss and bending loss are measured as 6.0 dB/
cm and 4.1 dB/180o. Tunable slot micro-ring with
Q factor of 3400 is fabricated.
ASu1C.4 • 09:45
A Versatile Mode-locked Fiber Laser with Dynamic Patterns of Soliton Pairs, Xin Zou1, Ming
Li1, Jifang Qiu1, Jindan Shi1, Jian Wu1; 1BUPT,
China. The dynamic patterns of soliton pairs of
two-pulse, second-order harmonic mode-locking
and “giant pulses” in a mode-locked fiber laser
due to birefringence of the EDF were obtained
by just adjusting the polarization controller
inside cavity.
ASu1D.5 • 09:45
Dielectric-loaded Surface Plasmon Polariton
Waveguide with Bending Structure, Asahi
Sumimura1, Masashi Ota1, Masashi Fukuhara1,2,
Motoki Ito1, Ryo Watanabe1, Yuya Ishii1, Mitsuo
Fukuda1; 1Toyohashi Univ. of Technology, USA;
2
JSPS, Japan. The optimum structure of bent
SiO2-loaded surface plasmon polariton waveguides was investigated using simulations and
experiments to reveal that it yielded 8.0 µm radius
of curvature and 30° bending angle.
Conference Room N211
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Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 46
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ACP 2015 — Sunday, 22 November
Conference Room N212
Conference Room N206
Conference Room N203
Conference Room N209
ASu1G.4 • 09:45
Integrated Allocation of Time, Virtual Subcarrier and Modulation Format for Improving
Energy Efficiency of OFDMA-PONs, Xiaoxue
Gong1, Lei Guo1, Yejun Liu1; 1Northeastern Univ.,
China. A novel dynamic virtual subcarrier scheduling solution is designed by us, for the purpose
of improving the energy efficiency in the Passive
Optical Network (PON) based on Orthogonal Frequency Division Multiplexing Access (OFDMA).
ASu1H.6 • 09:45
Quasi-static Time-slot Allocation in Hybrid Optical Packet/Circuit Switched Networks, Wenjiao
Liao1, Weiqiang Sun1, Shilin Xiao1, zhangxiao
feng1; 1Shanghai Jiao Tong Univ., China. We
propose a quasi-static time-slot allocation scheme
in hybrid optical packet/circuit switched networks.
We study the utilization and latency performance
of this scheme. Both the theoretical and simulation results verify the superiority of this scheme
over conventional packet switched networks.
ASu1I.5 • 09:45
New Insight of Depth-Dependent Corneal
Stroma, Sheng-Lin Lee1, Po-Sheng Hu1, Vladimir
A. Hovhannisyan1, Yang-Fan Chen1, Chen-Yuan
Dong1; 1National Taiwan Univ., Taiwan. To understand the nature of cornel structure, Second
Harmonic Generation (SHG) microscopy was
utilized to reveal new insight of corneal stromal
collagen fibers (lamellae). Results showed similar
pattern existing in pared eyes.
Conference Room N210
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Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 47
2015ACP Program.indd 47
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ACP 2015 — Sunday, 22 November
Room N201, HKCEC
10:00–11:30
ASu2A • Joint Poster Session
Sunday, 22 November
ASu2A.1
A Mushroom Dual-absorption Partially Depleted Absorber Photodetector, Chao Kang1,
Yongqing Huang1, Feng Liu 1, Jiarui Fei1, Qingtao
Chen1, Kai Liu1, Xiaofeng Duan1, Qi Wang1, Jun
Wang1, Xia Zhang1, Xiaomin Ren1; 1IPOC, Beijing
Univ. of Posts and Telecommunications, China.
High-speed, high-saturation and low-capacitance
are presented by mushroom dual-absorption
partially depleted absorber photodetector. This
photodetector achieved 3dB-bandwidth as wide
as 37.2GHz, quantum efficiency of 52%, DC
saturation current of 550mA. And, the capacitance
decreased apparently.
ASu2A.2
Design of Asymmetrical Silicon Waveguide
Grating by Introducing the Scattering Loss,
Shuang Zheng1, Jian Wang1; 1Wuhan National
Laboratory for Optoelectr, China. We present a
simple design of asymmetric silicon waveguide
grating by introducing the scattering loss. Numerical simulations show asymmetric reflection
with high contrast ratios (~10dB) at the wavelength of 1550 nm.
ASu2A.3
An integrated-optical spatial heterodyne spectrometer based on TriPleXTM planar waveguide,
Hongchen Yu1, Le An1, Yu Li1, Minghua Chen1,
Sigang Yang1, Hongwei Chen1, Shizhong Xie1; 1Tsinghua Univ., China. A spectrometer constructed
by 8-asymmetric Mach-Zehnder interferometers
(AMZIs) based on double-strip Si3N4 waveguide
is proposed and experimentally demonstrated
with the resolution and measurement range of
approximately 0.023 nm and 0.32 nm at around
1550nm, respectively.
ASu2A.4
Pyramid textured all-back-contact thin-film silicon solar cell, Guo Xiaowei1; 1Univ. of Electronic
Science and Tech, China. Enhancing the light
absorption in thin-film silicon solar cells is important for improving efficiency and reducing cost.
We introduce all-back-contact ultra-thin silicon
solar cells with wet-etched pyramid textures on
top of the solar cell which has an efficiency (8%)
of the solar cells compared with that of the planar
solar cell (4.8%).
ASu2A.5
Research on Crosstalk Characteristics of Optical Switching Integrated Chips, Yuan-li Zhao1,
Bao-Jian Wu1, Xing-yu Zhou1, Ming-le Liao1, Yong
Geng1, Kun Qiu1; 1Univ of Electronic Sci & Tech of
China, China. We put forward a new theoretical
model of crosstalk in optical switching integrated
chips, dependent on insertion loss and switch
routing states. The theoretical model is verified
by the 40Gb/s DQPSK experiment. The crosstalk
range for the 16×16 Benes-type optical switching
chips is calculated.
ASu2A.6
Highly Coherent Supercontinuum Generation in AlGaAs-On-Insulator Waveguide at
Telecommunication Wavelength, Chao Mei1,2,
Jinhui Yuan1,2, Kuiru Wang1, Binbin Yan1, Feng
Li2, Xinzhu Sang1, Chongxiu Yu1; 1Beijing Univ. of
Posts and Telecomm, China; 2Photonics Research
Centre, Department of Electronic and Information Engineering, The Hong Kong Polytechnic
Univ., Hong Kong. We propose a high refractive
index contrast AlGaAs-on-insulator waveguide.
The simulation results show that highly coherent supercontinuum over the -50 dB bandwidth
of 1350 nm can be generated when the pump
wavelength is 1550 nm.
ASu2A.7
Polarization insensitive 3-dB directional coupler
based on sub-wavelength grating structure,
Luluzi Lu1, Minming Zhang1, Deming Liu1; 1National Engineering Laboratory for NGIA, USA.
We propose and theoretically demonstrate a
polarization insensitive 3-dB directional coupler.
The polarization extinction ratio has an imbalance
less than 0.5dB over C-band. The footprints of the
coupler is 7.4 μm × 2.3μm.
ASu2A.8
Aluminum Nitride Electro-optic Modulator at
Mid-IR Wavelengths, Shuai Liu1, Ke Xu1, Xiang
Wen1, Qinghai Song1, Zhenzhou Cheng2, Hon K.
Tsang2; 1Harbin Inst. of Technology, Shenzhen,
China; 2The Chinese Univ. of Hong Kong, Hong
Kong. Mid-IR modulators based on AlN slot waveguides are proposed and designed. A maximum
effective waveguide index change of 2×10-5 is
obtained with a reasonable waveguide loss of
~ 2 dB/cm at 2.5 mm wavelength is achieved.
ASu2A.9
Strongly sub-Poissonian photon generation in
three coupled ring-microcavities containing
a quantum dot, Jihan Zhang1, Wen Zhang1,
Zhongyuan Yu1, Yumin Liu1, Han Ye1; 1State Key
Laboratory of Information Photonics and Optical
Communications, Beijing Univ. of Posts and Telecommunications, China. Photon statistics of three
coupled ring-microcavities with a quantum dot
in one cavity is studied. Strongly sub-Poissonian
character can be achieved by optimizing laser
detuning and ratio between driving strengths of
two empty cavities.
ASu2A.10
Tunneling Induced Double Dark States in Triple
Quantum Dots, Sicong Tian1, Cunzhu Tong1, Hao
Wu1, Lijie Wang1, Shili Shu1; 1CIOMP CAS, China.
The scheme for creating double dark states by
tunneling in triple quantum dots is proposed.
Such double dark states can be used in the area of
resonance fluorescence, Kerr nonlinearity, optical
bistability and cavity transmission.
ASu2A.11
Optimization of High Speed and High Saturation Uni-Traveling-Carrier Photodiode, feng liu
1
, Yongqing Huang1, Chao Kang1, Qingtao Chen1,
Xiaofeng Duan1, Kai Liu1, Qi Wang1, Xia Zhang1,
Jun Wang1, Xiaomin Ren1; 1Beijing Univ. of Posts
and Telecommunications, China. We demonstrate
an optimized high speed and high saturation
uni-traveling-carrier photodetector. Theory and
simulation study indicate that bandwidth and
saturation current of the optimized device with
420nm absorption layer are 53 GHz and 120mA
respectively.
ASu2A.12
Silicon Photonic Integrated Circuits under
Process Variations, Mahdi Nikdast 3,1 , Gabriela Nicolescu 1 , Jelena Trajkovic 2 , Odile
Liboiron-ladouceur 3; 1Computer Engineering
Department, Polytechnique Montreal, Canada;
2
Electrical and Computer Engineering Department, Concordia Univ., Canada; 3Electrical and
Computer Engineering Department, McGill
Univ. , Canada. Developing a computationally
efficient and accurate bottom-up method, the
impact of process variations on passive silicon
photonic interconnects is systematically studied.
Comparisons with numerical methods indicate
a considerable computational efficiency of our
proposed method.
ASu2A.13
Ultra-broadband low dispersion over midinfrared regime in germanium-on-silicon
waveguide, Lijuan Xu1, Xiaochang Ni1, Bowen
Liu2, Minglie Hu2; 1TUTE, China; 2Tianjin Univ.,
China. The designed germanium-on-silicon
waveguide illustrates an ultra-broadband (~4190
nm), ultra-flat (a flatness of 0.0055) and low chromatic dispersion (±23 ps/nm/km) in mid-infrared
wavelength region.
ASu2A.14
A novel demultiplexing photodetector with
integrated concentric circular subwavelength
gratings, Xinye Fan1, Chenglin Bai1, Xia Zhang1,
Qiuguo Wang1, Hengying Xu1; 1Liaocheng Univ.,
China. A novel demultiplexing photodetector
integrated with concentric circular subwavelength
gratings has been designed and simulated. The
device has a peak quantum efficiency of 90%
around 1550 nm and good performance in the
spectral response.
ASu2A.15
Feasible Coupling Design for Compact Optical
Frequency Comb based on A Fused-quartz
Micro-resonator, Tze-An Liu1, Hsin-Feng Chen1,
Yuh-Chuan Cheng1, Yi-Chen Chuang1, Po-Er Hsu1,
Jin-Long Peng1; 1Industrial Technology Research
Inst., Taiwan. Optical comb spacing of 2.5 nm
was generated from fused-quartz micro-resonator
with Q ~ 107. An electromagnet is utilized to
connect between a translation stage and the
micro-resonator holder temporally for performing
a portable design.
ASu2A.16
Valence Band Anticrossing in InP1-xBix, Liyuan
Wu1, Lihong Han1, Xiaoyun Li1, Pengfei Lu1, Shumin Wang2,3; 1Beijing Univ. of Posts and Telecom.,
China; 2Shanghai Inst. of Microsystem and Information Technology, China; 3Microtechnology
and Nanoscience, Chalmers Univ. of Technology, Sweden. The bandgap bowing trend in
InP1−xBix have been studied in the framework of
the valence-band anticrossing model. The alloys
exhibit a strong reduction in the band gap and
an increase in the spin-orbit splitting energy with
increasing Bi concentration.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 48
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Room N201, HKCEC
ASu2A.17
Ultra-wide Angle Unidirectional Plasmonic Coupler Based on Chirped Ridge Grating, Dalin Liu1,
Fan Lu2, Anshi Xu1; 1Peking Univ., China; 2 Inst. of
Spacecraft System Engineering, China. A novel
coupling scheme for unidirectionally coupling
of surface plasmons over a broad-angle range is
proposed, the large AFWHM up to 60o is achieved
by cascading the grating resonance angle peak
and asymmetric excitation peak.
ASu2A.19
Absorption Enhancement in Thin-film Organic
Solar Cells through Electric and Magnetic Resonances in Optical Metamaterial, Zhang Chen1,
Zhou Weizhong1, Yi Ningbo1, Sun Shang1, Xiao
Shumin1, Song Qinghai2; 1Integrated Nanoscience Lab, Department of Material Science and
Engineering, Harbin Inst. of Technology Shenzhen
Graduate School, China; 2Integrated Nanoscience
Lab, Department of Electronic and Information
Engineering, Harbin Inst. of Technology Shenzhen
Graduate School, China. We study the optical
absorption enhancement in a thin organic layer by
embedding it into magnetic metamaterials. The
enhancement is obtained in a wider bandwidth
and is valid for a wide range of incident angles.
ASu2A.23
Ultra-compact and Broadband Tunable Midinfrared Tapered Multimode Interference
Splitter Based on Graphene Plasmonic Waveguide, Ruiqi Zheng1, Dingshan Gao1,2, Jianji
Dong1; 1Wuhan National Lab for Optoelectronics, China; 2State Key Laboratory on Integrated
Optoelectronics, College of Electronic Science
and Engineering, Jilin Univ., China. We design
an ultra-compact (0.52μm×1μm) and broadband
tunable (6μm to 9μm) tapered multimode interference splitter in mid-infrared based on graphene
plasmonic waveguides. The device is easy to be
fabricated on chip.
ASu2A.21
Double-slit and square-slit interferences by
orbital angular momentum beams, Hailong
Zhou1, Dongzhi Fu2, Dongxu Chen2, Pei Zhang2,
Jianji Dong1; 1Wuhan National Laboratory for
Optoelectronics, Huazhong Univ. of Science and
Technology, China; 2Xi’an Jiaotong Univ., MOE
Key Laboratory for Nonequilibrium Synthesis and
Modulation of Condensed Matter, Department
of Applied Physics, China. We present two kinds
of interferences with orbital angular momentum
(OAM) beams, namely double-slit interference
and square-slit interference. The fringes or optical
lattices will twist, which show potential for detection of OAM and manipulation of OAM light.
ASu2A.24
Polarization Insensitive Echelle Grating Demultitiplexer Based on 3-μm SOI Platform, Pingli
Huang1, Mu Ge1, Tingting Lang1,2, Jian-Jun He1;
1
Zhejiang Univ., China; 2College of Optical and
Electronic Technology, China Jiliang Univ., China.
We present a compact, low crosstalk and polarization insensitive echelle grating demultiplexer with
a 20 nm channel spacing using a 3-μm siliconon-insulator (SOI) platform. The device can be
applied to the 40GBASE-LR4 Ethernet systems.
ASu2A.22
SOI-based Arrayed Waveguide Grating Router
with grating couplers fabricated in a single shallow etching step, Yang Chen1, Jun Zou1, Tingting
Lang 2, Jian-Jun He1; 1Zhejiang Univ., China;
2
China Jiliang Univ., China. We experimentally
demonstrate a 8×8 arrayed waveguide grating
router (AWGR) based on silicon-on-insulator
(SOI) platform. The minimum insertion loss and
the crosstalk are 1.90 dB and -15 dB, respectively.
ASu2A.25
Waveguide Photodetector Designed to be
Butt-Coupled with 2%-Δ Silica Planar Lightwave
Circuit Devices, Joong-Seon Choe1, Won-Seok
Han1, Young-Ho Ko1, Duk Jun Kim1, Seo-Young
Lee1, Young-Tak Han1, HyunDo Jung1, Chun Ju
Youn1, Jong-Hoi Kim1, Yong-Hwan Kwon1; 1Electronics & Telecomm Res. Inst, Korea (the Republic
of). Waveguide photodetector was fabricated for
high responsivity and low PDL when butt-coupled
with 2%-Δ planar lightwave circuit devices. Optimizing the thicknesses of tapers in spot-size
converter, fabricated device showed responsivity
of 0.72 A/W and PDL of 0.11dB.
ASu2A.26
Broadband and polarization insensitive 3
dB coupler based on tapered three-guide
structure, Yuchan Luo1, Mengyuan Ye1, Yu Yu1,
Xinliang Zhang1; 1Wuhan National Laboratory for
Optoelectronics & School of Optical and Electronic Information,, Huazhong Univ. of Science
and Technology, China. We propose a broadband
and polarization insensitive 3 dB coupler based
on tapered three-guide structure on the siliconon-insulator platform. The coupler has a wide
bandwidth (~100nm) for both polarizations and
has a large fabrication tolerance.
ASu2A.27
Vertically Stacked Silicon Nitride Coupled Microdisk Resonators, Chenxuan Yin1, Jian Jian1,
Zengkai Shao1, Yanfeng Zhang1, Pengfei Xu1, Lin
Liu1, Chunchuan Yang1, Hui Chen1, Yujie Chen1,
Siyuan Yu1; 1Sun Yat-sen Univ., China. We investigate novel vertically-coupled SiNx microdisk
resonators formed by multiple SiNx microdisk
resonators stacked on top of each other separated
by interleaving SiO2 layers with experimental
results on optical coupling near 1550 nm.
ASu2A.28
Microring Resonator Based All Optical NAND
and NOT Gate with Higher Output Power,
Prathmesh Pravin Dali1, Abhishek Godbole1, Sourabh Sahu1, Ghanshyam Singh1, Takasumi Tanabe2;
1
Electronics and Communication Engineering,
Malaviya National Inst. of Technology Jaipur,
India; 2Electronics and Electrical Engineering,
Keio Univ. Japan, Japan. This paper focuses on
increasing output power of all optical NAND
gate and design of NOT gate using microring
resonators. Obtained results 0.20W (high level)
and 0.05W (low level) encourages their tandem
connections in future.
ASu2A.29
A novel compact polarization beam splitter
based on a graphene-embedded directional
coupler, Tian Zhang1, Lin Chen1; 1Wuhan National
Lab for Optoelectronics, China. A polarization
beam splitter, utilizing two silicon waveguides
with and without graphene multilayer embedded,
is demonstrated with high extinction ratios (18.2
and 21.2 dB) and low ILs (0.18 and 0.36 dB) for
two outputs, respectively.
ASu2A.30
Broadband and Wide-angle Cascaded Slits
Antenna for Coupling Surface Plasmons with
Ultra-high Extinction Ratio, Dalin Liu1, Anshi
Xu1; 1Peking Univ., China. A novel scheme to
realize compact unidirectional plasmonic antenna
with ultra-high extinction ratio ER=43.1 dB and
broadband of 200 nm covering a wide angular
range from -17o to 15o with ER>10 dB is proposed.
ASu2A.31
All-optical regeneration experiment based on
data-pump four-wave mixing in silicon waveguide, Yong Geng1, Bao-Jian Wu1, Xiang-Jian
Kong1, Feng Wen1, Heng Zhou1, Xing-yu Zhou1,
Jing Zhang1, Kun Qiu1; 1Univ of Electronic Sci
& Tech of China, China. Data-pump four-wavemixing (FWM) phenomenon in silicon waveguide
is studied and the input-to-output power transfer
function (PTF) with the slope of 1.8 is measured
at different wavelength intervals. The regeneration experiment is also implemented by using
12.5Gbit/s NRZ signal and the extinction ratio
(ER) can be improved by 3.9dB.
ASu2A.32
Efficient Broadband Absorber Based on Plasmonic Nanoparticles, Xueyan Wu1, Yanxia Cui1,
Ting Ji1, Yanshan Wang1, Zhigang Jia2, Hua Wang2,
Yuying Hao1; 1Key Laboratory of Advanced Transducers and Intelligent Control System, Taiyuan
Univ. of Technology, China; 2Key Laboratory of
Interface Science and Engineering in Advanced
Materials, Taiyuan Univ. of Technology, China. We
have fabricated a high efficiency, broadband and
angle-insensitive plasmonic absorber composed
of a metallic nanoparticle layer and a SiO2 slab
on top of a reflective Ag substrate by magnetron
sputtering.
Sunday, 22 November
ASu2A.18
Mid-infrared Tunable Magnetic Response in
Graphene-based Diabolo Nanoantennas, Yi
Ningbo1, Liu Zhengxian 1, Sun Shang1, Qinghai
Song2, Shumin Xiao1; 1Integrated Nanoscience
Lab, Department of Material Science and Engineering, Harbin Inst. of Technology Shenzhen
Graduate School, China; 2Integrated Nanoscience
Lab, Department of Electronic and Information
Engineering, Shenzhen Graduate School, Harbin
Inst. of Technology, China. The magnetic resonance of gold-graphene hybrid diabolo antennas
has been tuned from 32.3 um to 19.8 um via freecarrier injection, and magnetic field enhancement
can also be as high as 12% and 1460%.
ASu2A.20
Fraunhofer diffraction by an arc slit to detect
hybrid orbital angular momentum modes,
Hailong Zhou1, Dongzhi Fu2, Dongxu Chen2, Pei
Zhang2, Jianji Dong1; 1Wuhan National Laboratory
for Optoelectronics, Huazhong Univ. of Science
and Technology, China; 2MOE Key Laboratory
for Nonequilibrium Synthesis and Modulation of
Condensed Matter, Department of Applied Physics, Xi’an Jiaotong Univ., China. When the orbital
angular momentum (OAM) beam illuminates an
arc slit, a focused spot is generated and has a
linear displacement in the far field. This feature
is beneficial to detect the hybrid OAM modes.
ASu2A.33
Carrier-depletion Mach-Zehnder silicon optical
modulator for BPSK and multi-level applications, Jianfeng Ding1; 1Inst. of Semiconductors,
CAS, China. We demonstrate a BPSK carrierdepletion modulator. The device generates a
PAM-4 optical signal which means it is possible
to be used in a 16-QAM applications.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 49
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Sunday, 22 November
Room N201, HKCEC
ASu2A.34
Soliton-self Compression in a Tapered Chalcogenide Horizontal Slot Waveguide with Low
Peak Pulse Power, Shuai Kang1, Jinhui Yuan2,1,
Kuiru Wang1, Binbin Yan1, Zhe Kang1, Xue Kang1,
Feng Li2, Xinzhu Sang1, Chongxu Yu1; 1Beijing
Univ. of Posts and Telecommunications, China;
2
The Hong Kong Polytechnic Univ., China. A pulse
compression scheme in tapered chalcogenide
horizontal slot waveguide is proposed. The
compression factor of more than 100 times in a
1.4 cm-long waveguide is achieved with the peak
pulse power of 7.6 W.
ASu2A.38
Gain and noise characteristics of dual-pump
non-degenerate phase-sensitive fiber optical parametric amplifier, Fangyong Yu 1,
Lihong Han1, Jinhui Yuan1, Xi Liu1; 1State Key
Laboratory of Information Photonics and Optical Communications, Beijing Univ. of Posts and
Telecommunications, China. The highly nonlinear
photonic crystal fibers (PCFs) are used as the gain
media. The bandwidth of proposed PS-FOPA
reaches ~100nm. The NF of 0.2dB and the gain
of 20.59dB are achieved within the telecommunication band.
ASu2A.35
Novel High-Power Zero-Bias Operational Unitraveling Carrier Photodetectors with InAlAs/
InGaAs Heterojunction, Jiarui Fei1, Yongqing
Huang1, Xiaomin Ren1, Xiaofeng Duan1, Kai Liu1,
Jun Wang1, Qi Wang1; 1Key State Laboratory
of Information Photonics and Optical Communications, Beijing Univ. of Posts and Telecommunications, China. A novel uni-traveling carrier
photodetector with InAlAs blocking layer was
proposed and researched. The proposed UTCPD has a significant improvement on high-power
zero-bias performance compared with UTC-PD
with InP/InGaAs heterojunction.
ASu2A.39
Highly sensitive twist sensor based on CO2laser-induced long period grating in few mode
fibers, Yuanhua Feng1, Yang Ran1, Li-Peng Sun1,
Zhaohui . Li1; 1Inst. of Photonics Technology, Jinan
Univ., China. We experimentally demonstrate
highly sensitive torsion sensor in few mode fiber
long period grating written with CO2 laser method. Experiment shows the sensitivity is 0.5286 nm/
(rad/m) with good linearity in a large twist range.
ASu2A.36
On the Intrinsic Randomness of Kerr Frequency
Comb, Mingle Liao1, Yixian Dong1, Kun Qiu1;
1
Univ of Electronic Sci & Tech of China, China.
The intrinsic randomness of Kerr comb is theoretically investigated in details in this paper. Low
correlations among independently created combs
are illustrated, and the effects of noise during
different comb evolving stages are comprehensively clarified.
ASu2A.37
Design of Metasurface-Assisted High-Order
Bessel Beam Laser Carrying Orbital Angular
Momentum (OAM), Zhou Nan1; 1Wuhan National
Laboratory for Optoelectr, China. We take advantage of metasurface as reflector in laser resonator
and demonstrate that the higher-order Bessel
beam can be stimulated. Compared with petalpattern intensity, we can acquire donut intensity
with orbital angle momentum.
ASu2A.40
Dual-wavelength Q-switched erbium-doped
fiber laser based on linear cavity, Yanli Ran1, Li
Xia1, Jalal Rohollahnejad1, Yiyang Luo1, Deming
Liu1; 1Huazhong Univ of Science & Technology,
China. This paper proposed a compact linear
cavity Q-switched erbium-doped fiber laser of
dual-wavelength with a low pulse repetition frequency range of 1-20 kHz and a pulse train with
1.3 μs pulse width at 20 kHz.
ASu2A.41
Fiber-based microcylinder resonator for controlled and stable coupling, Yongchao Dong1,
Xueying Jin1, Keyi Wang1; 1Department of Precision Machinery and Precision Instrumentation,
Univ. of Science and Technology of China, China.
Controlled and stable coupling between a fiber
taper and cylinder resonator fabricated from a
normal fiber is demonstrated. The axial quantization of the modes is achieved with numerical simulation, which is in agreement with experiments.
ASu2A.42
Withdrawn.
ASu2A.43
A Modified Spatial and Spectral (S2) Imaging
System Based On Electromagnetic Disturbance Mitigation, Fengze Tan1, Jian Zhao1, Qi
Mo2, Guifang Li1,3; 1Tianjin Univ., China; 2Wuhan
Research Inst. of Post and Telecommuniation,
China; 3Univ. of Central Florida, USA. A modified
S2 system, which can effectively mitigate the effect
of electromagnetic disturbance, was proposed
and demonstrated for the characterization of fewmode-fibers (FMFs). The measurement accuracy
of distributed mode coupling was improved by
1.22 dB.
ASu2A.44
Arbitrary Pulse Shape Control in MOPA based
fiber lasers using Feedforward Gain Compensation, Wu Qiong1, Jun Shi1, Ming Tang1,
Songnian Fu1, Zhenhua Feng1, Perry Ping Shum1,
Deming Liu1; 1Next Generation Internet Access
National Engineering Lab (NGIA), School of optical and electronic information, Huazhong Univ.
of Sci&Tech, China. A high-accuracy approach
of arbitrary pulse shape control in MOPA based
fiber lasers using feedforward gain compensation
is proposed and demonstrated with 200ns-pulseduration, 50kHz-repetition-rate pulse of targeted
square, parabolic and Gaussian shape.
ASu2A.45
Radiation-Resistant Characteristics of the Germanium and Fluorine Co-doped Single Mode
Optical Fiber, Dajuan Lv1,2, Liangming Xiong1,2,
Changwei Tang1,2, Liyan Zhang1,2, Fei Guo1,2;
1
State Key Laboratory of Optical Fiber and Cable
Manufacture Technology, China; 2Yangtze Optical
Fibre and Cable Joint Stock Limited Company,
China. A germanium and fluorine co-doped
single mode optical fiber with high transmission
capacity and an improved radiation-resistant
characteristic is reported. The radiation-induced
loss during irradiation is lower than 3dB/km at
1.31μm wavelength.
ASu2A.46
Spectral Characteristics of Bi/Er Co-doped
Silica Fiber Fabricated by Atomic Layer Deposition (ALD), Wenjun Liu1, Jianxiang Wen1,
Yanhua Dong1, Fufei Pang1, Yanhua Luo2, GangDing Peng2, Zhenyi Chen1, Tingyun Wang1; 1Key
Laboratory of Specialty Fiber Optics and Optical
Access Networks, Shanghai Univ., China; 2School
of Electrical Engineering and Telecommunications, Univ. of New South Wales, Australia. A Bi/
Er co-doped fiber is fabricated by ALD. Absorption bands at 500, 700, 800, and 1000 nm are
broadened due to Bi/Er co-doping. There exist
broadband luminescence and on-off gain spectra
with 980 nm pumping.
ASu2A.47
Refractive index Fabry–Perot interferometric
fiber sensor based on a microporous silver
diaphragm and silica tube, Mingran Quan1,
Zejin Lu1, Jiajun Tian1, Yong Yao1; 1Harbin Inst.
Technology, Shenzhen Graduate School, China.
A refractive index Fabry–Perot interferometric
fiber sensor is proposed and experimentally
demonstrated, which is fabricated by a section
of fiber tube and a fan-shaped silver diaphragm.
The sensitivity of proposed sensor is 1025 nm/RIU.
ASu2A.48
Optical Fiber Bending Sensor Based on an
Interlaced Tilted Long Period Grating, Yunqi
. Liu1, Xinyu Meng1; 1Shanghai Univ., China. We
demonstrate the fabrication of the interlaced
tilted long period fiber grating (ITLPFG) using
focused CO2 laser. The experimental results show
that the ITLPFGs have the similar bending characteristics at four orthogonal bending directions.
ASu2A.49
Passively Mode-Locked Fiber Lasers Based on
NPR and Chiral Fiber Grating, Du Yueqing1,
Xuewen Shu1, Zuowei Xu1; 1Wuhan National
Laboratory for Optoelectronics & School of Optoelectronic Science and Engineering, Huazhong
Univ. of Science and Technology, China. We
demonstrate a novel all-fiber passively modelocked laser using a chiral fiber grating as an
in-fiber polarizer. Stable mode locked pulse train
with 0.34nJ output pulse energy and 3.25MHz
repetition rate has been obtained.
ASu2A.50
Temperature Performance of All Fiber MachZehnder Interferometer Cascaded with FBG,
Lijun Li1, Guina Zhang1, Yinming Liu1, Lijun Bi1,
Lu Jiang1, Yidan Li1, Jia Yao1, Chunting Gao1, Yan
Zhang1, Arslan Rafiq Khan1, Qian Ma1; 1Shandong
Univ. of Sci and Tech, China. A new type of inline
Mach-Zehnder interferometer (MZI) based on
single mode-multimode-thin core-multimode
optical fiber cascaded with a FBG is proposed and
experimental studied. When FBG is heated only,
the sensitivity is 9.83pm/°C. The dip wavelength
of MIZ can be modulated by cascaded FBG.
ASu2A.51
Wavelength-Tunable Multi-wavelength Fiber
Laser with an Electro-Optic Lithium-Niobate
Waveguide Comb Filter, Jiangli Dong1, Kin S.
Chiang1,2, Kaixin Chen2; 1City Univ. of Hong Kong,
Hong Kong; 2The Key Laboratory of Optical Fiber
Sensing and Communications, Education Ministry
of China, Univ. of Electronic Science and Technology of China, China. A multi-wavelength fiber
laser that incorporates an electro-optic lithiumniobate waveguide comb filter is demonstrated.
The laser emits 12 wavelengths, which can be
tuned electrically at 0.14 nm/V. Fourier-domain
mode locking of the laser is also achieved.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 50
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ACP 2015 — Sunday, 22 November
Room N201, HKCEC
ASu2A.52
Terahertz generation using passively modelocked Yb-doped fiber laser, Moon Sik Kong1,
Sang-Pil Han2, Namje Kim2, Ki Won Moon2, Kyung
Hyun Park2, Min Yong Jeon1; 1Physics, Chung
Nam National Univ., Korea (the Republic of); 2THz
Photonics Creative Research Center, ETRI, Korea
(the Republic of). We successfully demonstrate
a THz generation using low-temperature grown
InGaAs photoconductive antenna pumped by an
Yb-doped mode-locked femtosecond fiber laser.
We achieved fast Fourier transform amplitude
spectrum with a bandwidth of 1.5 THz.
ASu2A.53
Gain equalization of few mode amplifiers using
Er3+-doped fibers designed with a refraction
index trench, Zhenzhen Zhang1, Qinghua Zhao1,
Ningbo Zhao1, Xiaoying Li1; 1Tianjin Univ., China.
We present cladding pumped few mode EDFAs
supporting up to ten mode groups. The differential modal gain can be decreased to less than
1 dB by properly designing Er3+-doped fibers.
ASu2A.55
Broad-band Sensor Based on Two Line-infiltrated Photonic Liquid Crystal Fibers, Xiaoqi Liu1,
Yan-ge Liu1, Zhi Wang1; 1Nankai Univ., China. A
broad-band tunable sensor has been proposed by
selective-filling photonic crystal fiber with liquid
crystal. Experimental results show the position
of the bandgap is nearly complementary before
and after the cleaning point of liquid crystal from
600nm to 1700nm.
ASu2A.57
Polarization dependent noise and gain characteristics in dual-pump non-degenerate
phase-sensitive fiber optical parametric amplifier, Fangyong Yu1, Lihong Han1, Jinhui Yuan1,
Zhongyuan Yu1, Peng xXu1; 1Beijing Univ. of Posts
and Telecomm, China. Using relative-intensitynoise(RIN) subtraction method, we find that the
noise and gain changes significantly with the
type of states of polarization(SOPs) in PS-FOPA.
The noise figure(NF) of 0.18dB is achieved within
~100 nm telecommunication band with circular
co-polarized pumps and signal.
ASu2A.58
Repetition Rate-tunable Q-switched Fiber Laser
Using a CNT-embedded Fiber Optic Coupler,
Joonhoi Koo1, Ju Han . Lee1; 1School of Electrical
and Computer Engineering, Univ. of Seoul, Korea
(the Republic of). We experimentally demonstrate
flexible control of the pulse repetition rate in a
passively Q-switched fiber lasers using a carbon
nanotube-embedded fiber-optic tunable coupler
as a passive Q-switch. It is shown that the pulse
repetition rate can readily be tuned from 13 to 21
kHz by mechanically adjusting the cross-coupling
ratio of the coupler.
ASu2A.59
Chaotic Pulsation of Soliton Bunch in a Partially Mode-locked Fiber Laser, Wenjing Zhao1,
Zhenhong Wang1, Zhi Wang1, Yange Liu1, Guang
Yang1, Shangcheng Wang1; 1Nankai Univ., Inst. of
Modern Optics, China. We report experimental
observation of soliton bound state which quasiperiodically arises in mode-locked fiber laser with
nonlinear polarization rotation and net anomalous
dispersion. Broadband spectrum implies this chaotic behavior could be related to Raman effect.
ASu2A.63
Fiber Bragg grating sensor system based on
resonance Fourier domain mode-locked laser,
Jinwoo Park1, Byeong Kwon Choi2, In Seok Choi1,
Min Yong Jeon1; 1Chungnam National Univ., Korea
(the Republic of); 2Chem Optics Inc., , Korea (the
Republic of). We report a fiber Bragg grating
sensor system using a 1.5 μm resonance Fourier
domain mode-locked laser. It consists of multiple
FBGs connected to a tunable fiber coupler with
external cavity.
ASu2A.67
Measurement of Cutoff Wavelength in FewMode Multi-Core Fiber (FM-MCF), Takumi Ozawa1, Ohashi Masaharu1, Yuji Miyoshi1, Hirokazu
Kubota1, Katsuhiro Takenaga2, Shoichiro Matsuo2;
1
Osaka Prefecture Univ., Japan; 2Fujikura, Japan.
We propose a definition of the cutoff wavelength
of high order mode in FM-MCF and its measurement technique. The cutoff wavelength of high
order mode in FM-MCF is successfully estimated
by the proposed method.
ASu2A.60
Line-by-Line Inscription of Phase-Shifted Fiber
Bragg Gratings with Femtosecond Laser, Bo
Huang1, Xuewen Shu1; 1Wuhan National Laboratory for Optoelectronics, Huazhong Univ. of
Science and Technology, China. The fourth-order
PSFBGs with the phase-shift values of π/2, π and
3π/2 are realized by line-by-line (LbL) technique
with a femtosecond laser. The birefringences of
the two LbL-inscribed PSFBGs are measured to
be 2.0×10-4, 2.4×10-4, respectively.
ASu2A.64
Raman distributed temperature fiber-optic sensor based on single-mode fiber, Sun Woo Kim1,
Jung Min Hwang2, Min Seong Seo2, Bong Wan
Lee2, Min Yong Jeon1; 1Chungnam National Univ.,
Korea (the Republic of); 2Fiberpro, Korea (the
Republic of). We report a distributed temperature fiber-optic sensor using Raman scattering
in 5 km-long single-mode fiber around 1550 nm
band. The spatial and temperature resolution are
achieved with 30 m and 5oC, respectively.
ASu2A.61
Two-channel Fiber Bragg Grating Fabricated
By Femtosecond Laser and Its Application In
Switchable Dual-wavelength Erbium-doped
Fiber Laser, Fangcheng Shen1, Kaiming Zhou2, Lin
Zhang2, Xuewen Shu1; 1Huazhong Univ of Science
and Technology, China; 2Aston Univesity, UK. Twochannel fiber Bragg grating (TC-FBG) consisting
of two localized sub-gratings parallel in the fiber
core is fabricated by femtosecond laser. Utilizing
the fabricated TC-FBG, stable and switchable
dual-wavelength erbium-doped fiber laser at
room temperature is demonstrated.
ASu2A.65
Wavelength dependence of the PLC-based
3-mode demultiplexer, Keito Kataoka1, Hirokazu
Kubota1, Yuji Miyoshi1, Ohashi Masaharu1; 1Osaka
Prefecture Univ., Japan. We propose a PLC-based
3-mode demultiplexer and numerically investigate the wavelength dependence of the insertion
loss of the demultiplexer. A numerical investigation of a wavelength dependent insertion loss
for the proposed demultiplexer are presented.
ASu2A.68
Design and analysis of hole-assisted few mode
fiber with ultra-low differential mode group
delay (DMGD), Jiajia Zhao1, Borui Li1, Ming Tang1,
Songnian Fu1, Deming Liu1, Perry Ping Shum2,
Shuang Liu1; 1Next Generation Internet Access
National Engineering Lab (NGIA), School of optical and electronic information, Huazhong Univ. of
Sci&Tech (HUST), China; 2School of EEE, Nanyang
Technological Univ., Singapore. We designed
a hole-assisted graded-index few mode fiber
supporting 4 LP-modes with ultra-low DMGD.
Less than 16ps/km across the C-band has been
achieved and the sign of DMGD can be tailored
by air holes’ structure.
ASu2A.62
Numerical Simulation of Pulse Propagation in
Graphene-clad Tapered Fiber, Pengfei Zhang1,
Yajiao Feng1, Bowen Hou1, Xiu Su1, Zhenhong
Wang1, Zhi Wang1; 1Nankai Univ., Inst. Modern
of Optics, China. We simulated the nonlinear
pulse propagation in a graphene-clad tapered
fiber with different diameters. Nonlinear and
attenuation coefficients are specially calculated.
We have observed spectrum broadening due to
self-phase modulation in simulation.
ASu2A.66
Chromatic Dispersion Estimation of High Order
Mode Based on Wavelength Dependence of
Effective Area Aeff, Kazuho Ozaki1, Ohashi Masaharu1, Yuji Miyoshi1, Hirokazu Kubota1; 1Osaka
Prefecture Univ., Japan. We propose a chromatic
dispersion estimation of high order modes based
on wavelength dependence of effective area. It
is shown that the chromatic dispersion of LP11
mode in two-mode fiber is successfully estimated
by our technique.
ASu2A.69
Research of Fiber Static Fatigue Parameter
Measurement Based On Acoustic Sensor Detection, Mengxun Sun1,2, Jing Li1, Zhixiong He1,
Weiguang Wang1; 1State Key Laboratory of Optical Fiber and Cable Manufacture Technology,
China; 2Yangtze Optical Fibre and Cable Joint
Stock Company Ltd, China. Here Fiber static
fatigue parameter is measured according to twopoint bending method based on acoustic sensor
detection, the detailed measurement method
is optimized, comparison of static and dynamic
fatigue parameter is also included in this paper.
Sunday, 22 November
ASu2A.54
Design of a Circular Photonic Crystal Fiber
Supporting OAM Modes, Hu Zhang1, Wenbo
Zhang1, Lixia Xi1, Xianfeng Tang1, Wei Tian1,
Xia Zhang1, Xiaoguang Zhang1; 1Beijing Univ of
Posts & Telecom, China. We designed a circular
photonic crystal fiber (C-PCF) supporting 12 information bearing states. Mode intensity profile,
dispersion, confinement loss and nonlinearity of
the fiber were investigated. The benefits of wide
bandwidth, low loss and all OAM modes having
the same size are verified based on numerical
analyses.
ASu2A.56
Gamma Radiation-Induced Formation of
Bismuth Related Active Centre in Bi/Er/Yb
Co-doped Fibre, Binbin Yan1,2, Yanhua Luo2,
Dan Sporea3, Laura Mihai3, Daniel Negut4, Xinzhu
Sang1, Jianxiang Wen5, Gui Xiao2, Gang-Ding
Peng2; 1State Key Laboratory of Information
Photonics and Optical Communications, Beijing
Univ. of Posts and Telecommunications, China;
2
Photonics & Optical Communications,School of
Electrical Engineering, Univ. of New South Wales,
Australia; 3National Inst. for Laser, Plasma and
Radiation Physics, Laser Metrology Laboratory,
Romania; 4Horia Hulubei” National Inst. of Physics
and Nuclear Engineering, Romania; 5School of
Communication and Information Engineering,
Shanghai Univ., China. The effects of gamma radiation on Bismuth/Erbium/Ytterbium co-Doped
Fibre (BEYDF) with ultra-broadband emission have
been investigated. We observed that gamma
radiation could influence the formation of bismuth
related active centre (BAC) in the BEYDF.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 51
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ACP 2015 — Sunday, 22 November
Room N201, HKCEC
ASu2A.70
Fiber Bragg Grating Inscription in Four Core
Fibers and Their Sensing Applications, Changle
Wang1, Zhijun Yan1, Qizhen Sun1,2, Lin Zhang1;
1
Aston Inst. of Photonic Technologies, Aston Univ.,
UK; 2School of Optical and Electronic Information,
and National Engineering Laboratory for Next
Generation Internet Access System, Huazhong
Univ. of Science and Technology, China. We
inscribe FBGs in all cores of four core fiber simultaneously and investigate their thermal, strain
and bending (both direction and magnitude)
responses. The influence of fiber core distance
on bending sensitivity is also discussed.
Sunday, 22 November
ASu2A.71
Multidimensional tuning of optofluidic ring
resonator, Song Zhu1, Lei Shi1, Yang Liu1, Xinbiao Xu 1, Xinliang Zhang1; 1Wuhan National
Laboratory for Optoelectronics, China. A novel
multidimensional tuning method is demonstrated.
The extinction ratio (ER) and the resonant wavelength were tuned by different mechanism. This
can enrich the tuning flexibility and broaden the
OFRR’s application range.
ASu2A.72
Study of an Improved 80×360-Gb/s NyquistWDM Transmission System Based on Nonbinary
LDPC Coding, Zhihui Cheng1, Chenglin Bai1, Xia
Zhang1,2, Wentao Sun1; 1Shandong Province Key
Laboratory of Optical Communication Science
and Technology, Liaocheng Univ., China; 2Beijing
Univ. of Posts and Telecommunications, China.
This paper uses an improved nonbinary LDPC
coding and PM 64-QAM technique to study our
80×360-Gb/s Nyquist-WDM coherent detection
system, resulting in 2.76dB improvement in BER
performance and a high SE of 11.63 bit/s/Hz.
ASu2A.73
Enhanced Asymmetrically Clipped Optical
OFDM for Next Generation PONs, Mohammed
Mohammed1, Mai Banawan1, Ziad A. El-Sahn1;
1
Photonics Group, Electrical Engineering Department, Alexandria Univ., Egypt. We successfully
demonstrate a novel enhanced asymmetrically
clipped optical OFDM (eACO-OFDM) solution over a PON link. The proposed technique
doubles the spectral efficiency of conventional
ACO-OFDM at the expense of a slight increase
in complexity.
ASu2A.74
A Time-saving and Highly-Accurate Blind
Chromatic Dispersion Estimation Method for
Coherent Optical Communication System,
Anlin Yi1; 1Southwest Jiaotong Univ., China. A
time-saving and highly-accurate CD estimation
method for coherent optical communication system is demonstrated. Experimental results show
only ~7% estimation time is required to achieve
similar high accuracy compared to previous scan/
search CD estimation techniques.
ASu2A.75
Phenomenological Formula for Modelling of
Physical Layer Impairments in Elastic Optical
Networks, Suhail Al-Awis1, Ali Fattah1, Richard
Schatz2, Xiaodan Pang3, Oskars Ozolins3, Gunnar Jacobsen 3, Sergei Popov 2, Jiajia Chen 2;
1
Electrical Engineering, Univ. of Technology ,
Iraq; 2KTH (Royal Inst. of Technology), Sweden;
3
Network and Transmission Laboratory, Acreo
Swedish ICT AB, Sweden. An empirical modelling technique is introduced to estimate impact
of physical layer impairments in elastic optical
networks, which can be used to evaluate transmission quality. The model has been verified
experimentally with accuracy beyond (97.3%).
OCIS codes: (060.1660) Coherent communications, (060.0060) Fiber optics and optical
communications.
ASu2A.76
Nonlinear Propagation in Multicore Fiber
Transmission Link Based on Coupled Mode
Analysis, Lian Xiang1, Gangxiang Shen1, Mingyi
Gao1; 1Soochow Univ., China. We present a general model for describing nonlinear propagation
in multicore fiber transmission link. Results show
that chromatic dispersion can mitigate crosstalk of
power effectively and Kerr nonlinearity will bring
crosstalk of nonlinear phase.
ASu2A.77
Nonlinear distortion in Nyquist OTDM scheme
using optical correlation detection, Kensuke
Yoshida1, Yuji Miyoshi1, Takahiro Oguro1, Hirokazu
Kubota1, Ohashi Masaharu1; 1Osaka Prefecture
Univ., Japan. We investigate a nonlinear distortion in Nyquist OTDM scheme using optical
correlation detection. We also clarify an absolute
chromatic dispersion around 2.5 ps/km-nm and a
small roll-off factor maximize the OSNR penalty
at 160 Gbaud.
ASu2A.78
Based on Cross-correlation Function OSNR
Monitoring Technique for PM-QPSK System
in Presence of Fiber Nonlinearities, Yuan Jin1,
Lixia Xi1, Donghe Zhao1, Xiaoguang Zhang1,
Dongwei Pan1, Wenbo Zhang1, Xianfeng Tang1;
1
BUPT, China. A novel optical signal-to-noise
ratio (OSNR) monitoring method in presence of
fiber nonlinearities optical transmission system is
proposed, which based on the cross-correlation
function between two symbols of the signal. The
results show that this technique can monitor the
OSNR of 112-Gb/s PM-QPSK signals with accuracy of 0.86 dB.
ASu2A.79
Dual-mode Injection-locked Colorless Laser
Diode with 64-QAM OFDM for 5G MMWoF
at 39-GHz, Huai-Yung Wang1, Yu-Chieh Chi1,
Cheng-Ting Tsai1, Gong-Ru . Lin1; 1Graduate Inst.
of Photonics and Optoelectronics, and the Department of Electrical Engineering, National Taiwan Univ., Taiwan. A dual-mode injection-locked
laser diode directly modulated by 24-Gbit/s
64-QAM OFDM data for 5G MMWoF is demonstrated to provide 39-GHz beating microwave
carrier with 37.5-dB CNR and 5-MHz linediwth
at a BER of 1.35×10-6.
ASu2A.80
Polarization switchable single/multi-wavelength fiber ring laser with an intra-cavity
all fiber Lyot filter, Zhijun Yan1, Qizhen Sun2,
Chengbo Mou1, Zhongyuan Sun1, Kaiming Zhou1,
Lin Zhang1; 1Aston Univ., Aston Institution of Photonic Technologies, UK; 2Huazhong Univ. of Science and Technology, The School of Optical and
Electronic Information, China. We demonstrate a
polarization switchable, single/ multi-wavelength
fiber ring laser based on an intra-cavity all fiber
Lyot filter. The laser can operate at single-, multiwavelength by adjusting polarization controller,
and givessingle polarization output.
ASu2A.81
A multi-rate regular QC-LDPC scheme for optical communication based on Finite Geometries,
Chi Chen1, Liqian Wang1, Xue Chen1, Dongdong
Wang1, Chen Ju1, Zhiguo Zhang1; 1Beijing Univ.
of Posts and Telecommunications, China. We
propose a multi-rate regular QC-LDPC scheme
for code rate adaptive optical communication systems based on Finite Geometries. Compared with
codes proposed in recent standards, the codes
have lower error floor and better performance at
high code rate.
ASu2A.82
Comparison of LDPC and Turbo Codes in
Ultraviolet Wireless Communication Systems,
Qi An1, Yong Zuo1, Jinnan Zhang1, Heng Qin1,
Yinghui Li1, Dong Zhang1, Jian Wu1; 1BUPT, China.
This paper compares LDPC and Turbo codes
in ultraviolet wireless communication systems.
Simulation results show the former can achieve
better bit error rate (BER) performance with lower
complexity than the latter for long length codes.
ASu2A.83
Error Performance of SWN Quantum Receiver
for QPSK Coherent-State Discrimination, Tian
Chen1, Bing Zhu1; 1Department of Electronic
Engineering and Information Science, Univ. of
Science and Technology of China, China. For
the QPSK coherent-state discrimination, error
performances of the SWN quantum receiver
with on-off detectors are analyzed, which can
be improved, especially for weak signals when
the sequential probing order and displacement
parameter are optimized.
ASu2A.84
Training Symbol Assisted Optical Signal-toNoise Ratio Monitoring Technique for DDOOFDM Systems, Zhenhua Feng 1, Liangjun
Zhang1, Ming Tang1, Shuang Gao2, Calvin C. K.
Chan2, Songnian Fu1, Qiong Wu1, Li Borui1, Ruoxu
Wang1, Rui Lin1, Perry Ping Shum3, Deming Liu1;
1
Huazhong Univ of Science & Technology, China;
2
Department of Information Engineering, The
Chinese Univ. of Hong Kong, China; 3School of
EEE, Nanyang Technological Univ., Singapore.
A high-accuracy training symbol assisted optical
signal-to-noise ratio (OSNR) monitoring technique
for DDO-OFDM systems is proposed and demonstrated with less than 0.42dB estimation error
in an 8.87Gb/s QPSK-OFDM system over 40km
SSMF transmission.
ASu2A.85
Directly Modulated WDM-FDM OFDM Signals
Externally Modulated with IEEE802.11ac
Signals at a MZM, Miku Teruya1, Koyu Chinen1,
Kotoyo Irei 1, Ichiko Kinjo 1; 1Electronics and
Communication, Okinawa National College of
Technology, Japan. Directly modulated 1550nm
OFDM and FM signals were multiplexed with
two wavelengths and intensity modulated by
5GHz 256QAM IEEE802.11ac at MZM. The lower
EVM and RCE were achieved with a lower optical
spacing than 0.1nm.
ASu2A.86
A Novel OFDM-PON Scheme Using Signal-toSignal Beat Interference Cancellation Receiver
with Balanced Detection , Jianxin Ma1, Wei
Zhou1, Yi Zhang1, Qin Wang1; 1Beijing Univ of
Posts & Telecom, China. A novel multi-band
OFDMA-PON architecture using signal-to-signal
beat interference cancellation receivers based on
balanced detection (ICRBD) at both the optical
line terminal (OLT) and the optical network units
(ONU) is proposed and verified by simulation.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 52
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Room N201, HKCEC
ASu2A.87
Optimization of Transceiver Bandwidths of 40
Gb/s NG-PONs Using Electrical Three-Level
Duobinary, Jinlong Wei1, Jianming Tang2, Qixiang
Cheng3, Richard V. Penty3, Ian H. White3, Helmut
Griesser4; 1ADVA Optical Networking SE, Germany; 2Bangor Univ., UK; 3Univ. of Cambridge,
UK; 4ADVA Optical Networking SE, Germany.
We numerically analyze and optimize transceiver
bandwidths of 40 Gb/s per wavelength WDMPONs using electrical three-level Duobinary.
Optical filtering using 50G and 100G ITU grid
(De-)MUXs and standard SMFs at C-band are
considered.
ASu2A.88
Unitary space-time codes in free-space optical
communications, Meng Fan Li1, Xizheng Ke1,
Sichen Lei1; 1Xi’an Univ. of Technology, China. A
4-pulse-position modulation (4-PPM) based on
unitary space-time codes (USTC) is proposed for
free space optical (FSO) communications. The
simulation results show that the USTC has excellent error-rate characteristics and can suppress
channel fading effects.
ASu2A.90
Performance of FSO systems employing hybrid
PolSK-PPM-MQAM modulation over gammagamma channel, Yan Hong1; 1BUPT, China. A
novel hybrid modulation scheme which combines
polarization shift keying and M-ary quadrature
amplitude modulation with pulse position
modulation is proposed in this paper. The system
improves the transmission capacity and enhance
resistance to atmosphere turbulence.
ASu2A.92
Cassegrain-Fiber-Coupling Efficiency through
Atmospheric Turbulenc, Sichen Lei1, Xizheng
Ke1, Meng Fan Li1; 1The Faculty of Automation &
Information Engineering, Xian Univ. of Technology, China. Cassegrain-fiber-coupling expression
is deducted under Kolomogorov power-law
spectrum. The results show that with Cassegrainshielding-ratio increases the coupling efficiency
will decrease, but the impact will decease with
the communication distance and turbulence
intensity increase.
ASu2A.93
Experimental demonstration of a 8×10Gb/s
10GHz-spaced UDWDM-PON system based
on CAP and direct detection, Zhixin Wang1,2,
Yanjin Wang 1, Li Tao 1, Yiguang Wang 1, Chi
Nan 1 ; 1 FUDAN Univ., China; 2 National Engineering Research Center For Broadband
Networks&Applications, China. In this paper we
demonstrate a novel 8-channel 10GHz-spaced
UDWDM-PON system with highest downstream
data rate of 10Gb/s per user over 42.5km SSMF
transmission employing carrierless amplitude and
phase(CAP) modulation and direct detection.
ASu2A.94
Generation of Hexagonal 16-ary Quadrature
Amplitude Modulation Signals, Qiuguo Wang1,
Chenglin Bai1, Xia Zhang1; 1LiaoCheng Univ.,
China. Using a dual-drive IQ modulator, we generate 25-Gbaud hexagonal 16-QAM signals. The
off-line BER at 32dB optical signal-to-noise ratio
(OSNR) is 3.7e-3, the required OSNR is 0.5dB less
than that of the square 16-QAM signal.
ASu2A.95
Mode-Forming Remote Switch for Security
Networks, Yuki Morizumi1; 1Kochi Univ. 0f Technology, Japan. Mode-forming remote switch in
multi-mode optical fiber system is proposed to
enhance security. Feasibilities of the proposed
scheme are confirmed by 2 channel multi-mode
optical fiber link by controlling amplitudes and
phases of transmitter signals.
ASu2A.96
Channel-reuse DWDM-PON on a 25-GHz Grid
Employing Self Wavelength Managed Tunable
Laser, Zhiguo Zhang1, Rentao Gu1, Jiahe Wang1,
Xue Chen1, Liqian Wang1, Min Zhang1; 1Beijing
Univ of Posts & Telecom, China. We experimentally demonstrate a channel-reuse bidirectional
10-Gb/s/λ dense WDM-PON on a 25-GHz grid
and an optical beat noise-based automatic wavelength control method for tunable laser used in
colorless ONU. 42-km transmission performance
is also measured.
ASu2A.97
Optimization of super pixel for higher order
mode excitation in mode-division multiplexing
system, Chenxing Ma1, Song Yu1, Mingying Lan1,
Shanyong Cai1, Song Nie1, Wanyi Gu1; 1Beijing
Univ Posts & Telecommunications, China. A phase
settings of super pixel based on phase-only spatial light modulation is proposed for amplitude
and phase modulation. Using the concept of
super pixel, many higher order fiber modes are
excited precisely.
ASu2A.100
Optimum Design of Cassegrain Antenna for
Space Laser Communication, Yuan Hu1; 1CUST,
China. In this study, we analyzed the relationship
between the divergence angle and antenna
parameters with central obscurations. Then, we
optimized the design of a Cassegrain antenna
and experimentally evaluated its performance in
long-distance laser communications.
ASu2A.101
Experimental Demonstration of Reconfigurable
N×N Joint Orbital Angular Momentum (OAM)
and Space Switching Fabric Using a Single
Spatial Light Modulator (SLM), Jun Liu1, Shuhui
Li1, Long Zhu1, Jian Wang1; 1Wuhan National Lab
for Optoelectronics, China. By employing a single
spatial light modulator, we propose and demonstrate a N×N joint orbital angular momentum
(OAM) and space switching fabric. 4×4 OAM
mode switching, space switching and joint OAM
and space switching are all demonstrated in the
experiment.
ASu2A.98
Experimental Demonstration of Linearly Polarized (LP) Modes and Orbital Angular Momentum (OAM) Modes Conversion in Few-Mode
Fiber, Long Zhu1, Jun Liu1, Jian Wang1; 1Wuhan
National Lab for Optoelectronics, China. We
experimentally demonstrate the conversion of
one mode (x-pol LP11a or OAM-1) to eight different modes (LP11a, LP11b, OAM+1, OAM-1 with
two polarization) with a 10 Gbit/s on-off keying
(OOK) signal in 1.1 km few-mode fiber (FMF), and
achieve bit-error rate (BER) below 2e-3.
ASu2A.102
Cost-Optimized Design of Survivable Flexible
Bandwidth Optical Networks, Bowen Chen1,
Xiaoling Wang1, Yongli Zhao2, Jie Zhang2; 1Soochow Univ., China; 2Beijing Univ. of Posts and
Telecommunications, State Key Laboratory of
Information Photonics and Optical Communications, China. We develop a hybrid-protection
approach (HPA) and a dedicated-protection
approach (DPA) to optimize the network cost in
a survivable flexible bandwidth optical network.
Simulation results show that HPA significantly can
reduce network cost compared to DPA.
ASu2A.99
Experimental Performance Evaluation of Analog Signal Transmission Using LP and Orbital
Angular Momentum (OAM) Modes in a FewMode Fiber, Jing Du1, Long Zhu1, Shi Chen1,
Jun Liu1, Shuhui Li1, Yun Long1, Yifan Zhao1, Jian
Wang1; 1Huazhong Univ. of Sci. and Tech., China.
We experimentally demonstrate the analog transmission performance in a 5km FMF. SHD SFDR of
fundamental mode is nearly 6 dB and 5 dB larger
than LP11a (b) and OAM ±1 modes, respectively.
SHD SFDRs of OAM ±1 modes are nearly 1dB
larger than LP11a (b) modes.
ASu2A.103
A Service-oriented Control Framework of
Software Defined Elastic Optical Networks
with Universal REST APIs Model, Yina Song1,
Yongli Zhao1, Jie Zhang1, Ruiquan Jing2, Junjie
Li2, Chengliang Zhang2; 1Beijing Univ. of Posts
and Telecom, China; 2China Telecom Beijing Research Inst., China. A service-oriented framework
with universal REST APIs model is experimentally
demonstrated in software defined elastic optical networks considering service functions and
categories. The reliability and efficiency of the
framework are also verified on the testbed.
ASu2A.104
A History-Based Inter-Domain Routing Algorithm in Multi-Domain Optical Networks,
Yanwei LI1,2, Heng Zhang2, Yanhe Li2, Xiaoping
Zheng2; 1National Computer Network Emergency
Resp, China; 2Department of Electronic Engineering, Tsinghua Univ., China. This paper proposes
an inter-domain routing algorithm based on statistics of inter-domain routing history information.
Simulation results show that it has much better
performance in terms blocking probability than
some topology abstraction based algorithms.
ASu2A.105
Virtual Network Embedding based on Auxiliary
Graph Model in IP-over-WDM Networks, Jiawei
Zhang1, Yuefeng Ji1, Hanwei Liu1, Mei Song1; 1Beijing Univ. of Posts & Telecom, China. We address
the virtual network embedding problem for cloud
services in IP-over-WDM networks, an auxiliary
graph model is proposed to design node and
link mapping policies by considering electrical
and optical layer resources jointly.
ASu2A.106
Dynamic Traffic Grooming with Spectrum
Defragmentation (TG-SD) based on Sliceable
Transponder in Flexible Grid Optical Networks,
Xiaosong Yu1, Yongli Zhao1, Guanjun Gao1, Xue
Chen1, Jie Zhang1, Guoying Zhang2; 1Beijing Univ
of Posts & Telecom, China; 2China Academy of
Telecom. Research (CATR), China. We propose
several dynamic traffic grooming schemes
incorporated with spectrum defragmentation
based on sliceable transponder in flexible grid
optical networks. Results show the proposed
schemes can increase spectrum efficiency as well
as reduce OPEX.
Sunday, 22 November
ASu2A.89
100G WDM Transmission over 100 meter
Multimode Fiber, Bruno Cimoli1, Jose Estaran1,
Guillermo Arturo Rodes1, Anna Tatarczak1, Juan
Jose . Vegas Olmos1, Idelfonso Tafur Monroy1;
1
DTU, Denmark. We present a comparative
performance analysis for wavelength-grid selection in WDM shortrange multimode-fibers. We
study 100Gbps links over OM2, OM3 and OM4
fibers and show it is feasible to reach over 100 m
transmission distances.
ASu2A.91
Withdrawn.
ASu2A.107
A Multi-layer Planning Solution for IP-Optical
Networks, Zhicheng Sui1, Chuanjun Wu1, Bin
Xia1; 1HuaWei Technology Company, China. A
multi-layer network planning solution is proposed,
which performs multi-layer VLAN sub-interface
grooming, multi-layer topology design and coordinative protection planning. Numerical results
show that our solution achieves 15%~40% CAPEX
saving on five IP-Optical real networks.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 53
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ACP 2015 — Sunday, 22 November
Sunday, 22 November
Room N201, HKCEC
ASu2A.108
A Novel Spectrum Assignment Algorithm to
Restrain the Generation of Fragments in Elastic
Optical networks, Yang Qiu1, Zheyu Fan2, Calvin
C. K. Chan2; 1Southwest Univ. for Nationalities,
China; 2The Chinese Univ. of Hong Kong, Hong
Kong. We propose a slot-weighted variablegroup-based spectrum assignment algorithm to
restrain the generation of spectrum fragments in
elastic optical networks. Simulation results show
more than 76% fragment reduction compared to
the defragmentation algorithm.
ASu2A.112
Photonic maximal entanglement generation
based on cross-Kerr media and quantum nondemolition detectors, Xin-chang Liu1, Dan-dan
Sun1, Xiao-dong Shi1, Shao-ling Huang1, Hui-ping
Gao1; 1Beijing Univ. of Posts and Telecom., China.
We propose a scheme of maximally entangled
Greenberger-Horne-Zeilinger state generation
with arbitrary three-photon state. The scheme
exploits quantum non-demolition detectors with
cross-Kerr nonlinearity which reveal us the parity
of the photons without destroying them.
ASu2A.115
A novel scheme of realizing high-speed optical logic gate of XOR based on a single I/Q
modulator and direct detection, Xianfeng Tang1;
1
Beijing Univ of Posts & Telecom, China. We
propose a novel scheme of realizing all-optical
XOR based on a single I/Q modulator and direct
detection by adjusting bias voltages of the two
arms, peak-peak voltages of the driving signals
and the phase shift. Experiments are successfully
carried out at the bit rate of 1Gbit/s with extinction ratio higher than 11 dB.
ASu2A.109
Experimental Demonstration of OpenFlowbased Control Architecture for Lightpath
Provisioning in Co-existing Fixed/Flexible Grid
Optical Networks, Guangbin Li1, Xiaosong Yu1,
Yongli Zhao1, Hui Li1, Jie Zhang1, Yuefeng Ji1,
Dajiang Wang2, Jiayu Wang2, Zhenyu Wang2;
1
Beijing Univ. of Posts and Telecomm, China;
2
ZTE Corporation, China. An OpenFlow-based
control architecture for lightpath provisioning in
co-existing fixed/flexible grid optical networks
is proposed and deployed experimentally to
verify the extensions of OpenFlow protocols in
this paper.
ASu2A.113
Real-time OpticalDemultiplexingwiththe
ChirpedPulses, Yan Li1, Xianting Zhang1, Jinhui
Yuan1, Zhe Kang1, Xinzhu Sang1, Shuai Kang1,
Xue Kang1, Binbin Yan1, Kuiru Wang1, Chongxu
Yu1; 1IPOC, China. A novel scheme for the realtime optical demultiplexing by using the linearly
chirped and time-broadened pulses is proposed.
Simulation results show that the demultiplexing
from 160 Gb/s to sixteen 10 Gb/s tributaries can
be achieved.
ASu2A.116
Optical Millimeter Wave Generation with
Frequency Octupling Using Two Cascaded
Polarization Modulators, Yang Yang1, Jianxin
Ma1, Ruijiao Zhang1, Xiangjun Xin1, Junyi Zhang1;
1
Beijing Univ of Posts & Telecom, China. An approach to generate the optical millimeter wave
with frequency octupling using two cascaded
polarization modulators is proposed and verified
by simulation. Only the ±4th-order sidebands are
generated without filtering.
ASu2A.114
Hyperdistillation and hyperentanglement
purification with linear optics, Lei-Lei Liu2,1, Ru
Zhang2,3; 1School of Science, China; 2The State
Key Laboratory of Information Photonics and
Optical Communications, Beijing Univ. of Posts
and Telecommunications , China; 3School of
Ethnic Minority Education, Beijing Univ. of Posts
and Telecommunications, China. We propose
scheme to implement hyperentanglement distillation and hyperentanglement purificaiton .In
our scheme,QND parity-checking measurement
in the spatial-mode and polarization DOFs and
the qubit amplification could be the key steps.
We consider the decoherence and photon losses
simutaneously.
ASu2A.117
Improving accuracy of pulsed-laser range
finding based on differential optical-path, Jie
Cao1,2, Qun Hao1, Yuxin Peng2, Yang Cheng1;
1
Beijing Inst. of Technology, China; 2National
Univ. of Singapore, Singapore. A pulsed-laser
range finding based on differential optical-path
is proposed. The results show (1) Background
noise is suppressed effectively. (2) Peak detection
of traditional method is transformed into zerocrossing, which has higher sensitivity than former.
ASu2A.110
Bandwidth Allocation for Correlated Flows in
the Intra-Datacenter Subwavelength Switching Ring Networks, Jia Yu1, Dongxu Zhang1,
Hongxiang Guo1, Gaofeng An2, Ping Liao2, Huitao
Wang2; 1BUPT, China; 2ZTE, China. Minimizing
correlated flows’ completion time is critical in
the datacenter. This paper proposes a datacenter
subwavelength switching ring network architecture and a corresponding bandwidth allocation
algorithm for correlated flows to minimize flow
completion time.
ASu2A.111
Demonstration of Hybrid Orbital Angular
Momentum Multiplexing and Time-Division
Multiplexing Passive Optical Network, Andong
Wang1, Long Zhu1, Jun Liu1, Jian Wang1; 1Wuhan
National Lab for Optoelectronics, China. We
demonstrate the implementation of modedivision multiplexing (MDM) and time division
multiplexing (TDM) passive optical network (PON)
architecture. Two orbital angular momentum
(OAM) modes are successfully transmitted over
20-km singe mode fiber (SMF).
ASu2A.118
Infrared Image Detail Enhancement Based
on Multi-layer Separation, Xiubao Sui 1, Jia
Qian2, Zhiqiang Gao2, Qian Chen1, Guohua Gu1;
1
Nanjing Univ of Science and Technology, China;
2
Jiangsu North Huguang Electro-Optics Co.,LTD,
China. Our image detail enhancement method
can filter random noise by a gradient reciprocal weighting filter, and enhance image details
adaptively by bilateral filter. The experiments
indicate it can improve the detail contrast and
NETD performance.
ASu2A.119
A Flexible Multi-band Microwave Photonic
Frequency Conversion Scheme for Satellite
Repeater Applications, Jie Yin1, Xuemei Bi1, Kun
Xu2, Qunyang Wang1, YInchuan Liang1, Tao Liu1,
Feifei Yin2, Jianqiang Li2; 1Beijing Inst. of Satellite Information Engineering, China; 2State Key
Laboratory of Information Photonics and Optical Communications, Beijing Univ. of Posts and
Telecommunications, China. A novel microwave
photonic repeater system of generating eight
different output RF frequencies from one input
RF carrier is proposed by adjusting modulators’
configurations, which can realize multi-band
frequency conversion using one frequency-fixed
microwave source.
ASu2A.120
All-optical correlator based on modal dispersion in multimode fiber, Jian Sun1, Zhongwei
Tan 1, Tangjun Li 1, Muguang Wang 1; 1Beijing
Jiaotong Univ., China. We propose and demostrate a novel all-optical correlator based on
modal dispersion in multimode fiber. A correlator
of the mask and input signal is achieved at the
output. The correlator is nearly independent of
the wavelength and bandwidth of input signal.
Adjusting slits on the mask, the target patterns
of the correlator can be changed easily.
ASu2A.121
Experimental Demonstration of All Optical Eight-Wavelength 2R Regeneration of
OOK signals by Using Time-Interleaving and
Bidirectional Transmission, Xing-yu Zhou 1,
Bao-Jian Wu1, Feng Wen1, Yong Geng1, Jing
zhang1, Kun Qiu1; 1Univ of Electronic Sci & Tech
of China, China. All-optical eight-wavelength 2R
regeneration of OOK signals is experimentally
demonstrated based on time-interleaving and
bidirectional transmission. The improvements of
receiver sensitivity are obtained for all regenerated wavelengths.
ASu2A.122
Experimental distinction of electromagnetically
induced transparency and Autler-Townes splitting using mechanical systems, Jingliang Liu1,
Hujiang Yang1, Chuan Wang1, Kun Xu1, Jinghua
Xiao1; 1Beijing Univ. of Posts and Telecom., China.
Here we first experimentally demonstrated the
electromagnetically induced transparency (EIT)
and Autler-Townes splitting (ATS) effects in mechanical coupled pendulums. Exploiting Akaike
information criterion, these two effects could be
discerned. The analogue of EIT and ATS is also
discussed in mechanical systems.
ASu2A.123
Multi-view Generation Method Based on the
Sparse Feature Points Matching, Yingying Zhu1,
Xinzhu Sang1, Duo Chen1, Nan Guo1, Chenyu Li1,
Chongxiu Yu1, Binbin Yan1, Kuiru Wang1, Jinhui
Yuan1; 1Beijing Univ. of Posts and Telecommunications, China. A novel method for generating
intermediate images based on feature points
matching, Delaunay triangulation and image
morphing is presented. Experimental results show
that the proposed method can achieve a better
visual image quality.
ASu2A.124
A novel thresholder based on a DFB laser under optical pulses injection, Dalei Chen1, Rong
Wang1, Tao Pu1, Peng Xiang1, Tao Fang1, Jiyong
Zhao1, Huatao Zhu1; 1PLA Univ. of Science and
Technology, China. A novel low-power and costeffective thresholder realized by a distributedfeedback (DFB) semiconductor laser under optical
pulses injection is proposed and experimentally
demonstrated.
ASu2A.125
Frequency-Doubling Modulated Optical Carrier
Injection of Dual-Mode Colorless Laser Diode
for OFDM-PON, Tsai-Chen Wu1, Chung-Yu Lin1,
Yu-Chieh Chi1, Gong-Ru . Lin1; 1Graduate Inst. of
Photonics and Optoelectronics, and the Department of Electrical Engineering, National Taiwan
Univ., Taiwan. Microwave-frequency-doubling
modulated optical carrier injection-locked dualmode colorless laser diode is demonstrated for
36-GHz narrow-linewidth microwave carrier
generation with 62-dB CNR to transmit 36-Gbit/s
64-QAM-OFDM with BER achieving 3.8×10 -3
when receiving at -4 dBm.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 54
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Room N201, HKCEC
ASu2A.126
Generation of mid-infrared wavelengths by
high-order soliton fission and dispersive wave
in a chalcogenide-silicon slot waveguide, Xue
Kang1, Jinhui Yuan1,2, Kuiru Wang1, Binbin Yan1,
Zhe Kang1, Zheng Guo1, Shuai Kang1, Feng Li2,
Xinzhu Sang1, chongxu yu1; 1BUPT, China; 2Hong
Kong Polytechnic Univ., China. A chalcogenidesilicon slot waveguide is designed to generate the
mid-infrared wavelengths by high-order soliton
fission and dispersive wave. The tunable range
and conversion efficiency can be up to 500 nm
and over 40 %, respectively.
ASu2A.127
High Quality Recovery of Double Random
Phase Optical Encryption Based on Compressive Sensing, Zhidong Chen1, Xinzhu Sang1,
Xuemei Cao1; 1Beijing Univ Posts & Telecommunications, China. A decryption method based on CS
is presented to retrieve the image from a double
random phase digital holographic encrypted
system. By applying CS to decrypt the incomplete
hologram, signal can be ideally recovered.
ASu2A.130
A microwave photonic filter with multiple
independently tunable passbands, Long
Huang1, Xiangfei Chen1, Tao Pu2, Dalei Chen2,
Peng Xiang2; 1Nanjing Univ., China; 2PLA Univ.
of Science and Technology, China. We propose
a novel microwave photonic filter with multiple
independently tunable passbands based on an
incoherent broadband optical source. A proof-ofconcept experiment is performed. An MPF with
two passbands is experimentally demonstrated.
ASu2A.131
Broadband Optical Nonreciprocal Transmission
Using a Nonlinear Attenuator Cascaded with
a Linear Attenuator, Yun Long1, Xiao Hu1, Jian
Wang1; 1Wuhan National Laboratory for Optoelectronics, China. We propose a approach to realize
integrated optical nonreciprocal transmission
(ONT) using a nonlinear attenuator and a linear
attenuator. In a proof-of-concept experiment
based on single-mode fiber,we realize large
nonreciprocal transmission ratio. Our architecture
may provide an answer to the challenge of ONT
in photonic integrated circuits.
ASu2A.132
Suppression Ratio Tunable Microwave Photonic Filter Based on a Silicon Photonic Crystal
Nanocavity, Yun Long1, Yong Zhang1, Han Zhang1,
Jinsong Xia1, Jian Wang1; 1Wuhan National Laboratory for Optoelectronics, China. We propose a
simple approach to realize ultracompact suppression ratio tunable microwave photonic filter based
on a silicon photonic crystal (PhC) nanocavity with
shallow resonance. Using a conventional modulation scheme with only a single phase modulator,
the suppression ratio of the proposed MPF can
be tuned from about 10 dB to beyond 60 dB.
ASu2A.133
Optical-fiber intrusion detection method based
on Lefevre-loop and bidirectional pOTDR-C
technique, Carolina Franciscangelis2, Claudio Floridia1, Fabiano Fruett2; 1CPqD, Brazil; 2Unicamp,
Brazil. We validated a novel optical-fiber intrusion sensor proposal based on Lefevre-loop and
bidirectional polarization Optical Time-Domain
Reflectometer (pOTDR) technique. Disturbances
along 5 m fiber section inside 9 km perimeter
were localized within 18 m resolution.
ASu2A.134
Withdrawn.
ASu2A.135
Safety Monitoring System of Optical Cable
Cross Connection Cabinet Using FBG-based
Fiber Optic Sensor, Cilin Liu1, Zhiguo Zhang1,
Zhiming Liu1, Luming li2; 1State Key Lab of Information Photonics and Optical Communications,
Beijing Univ. of Posts and Telecommunications,
China; 2Information and Communications Branch,
Jiangxi Electric Power Company, China. A safety
monitoring system of optical cable cross connection cabinet based FBG is proposed. When the
door is opened more than 30°, the difference of
wavelength shift will less than 0.653nm. By detecting difference of wavelength shift we can know the
status of optical cable cross connection cabinet.
ASu2A.136
Qualitative Analysis of CO(NH2)2 Composition
for Skin Secretion Detection Based on Near
Infrared Spectroscopy, Jianfei Liu1, Lizhu Dong1;
1
Hebei Univ. of Technology, China. CO(CH2)2
composition at surface of human body have direct relationship with human physical condition.It
demonstrates the relationship between composition, temperature and near infrared spectroscopy
spectrum based on least squares method.
ASu2A.140
Modeling of Brillouin optical time domain analysis with arbitrarily modulated pump, Xiaobo
Tu1, Qiao Sun1, Zhou Meng1; 1 National Univ. of
Defense Technology, China. This paper derives a
novel model to describe the Brillouin interaction
in Brillouin optical time domain analysis with
arbitrarily modulated pump. Then the Brillouin
gain spectra of phase-shift pulse and Brillouin
echo are calculated and analyzed.
ASu2A.137
Demonstration of Correlation Peak Profiling in
Frequency Correlated Brillouin Optical Time
Domain Analysis, Bhargav Somepalli1, Deepa
Venkitesh1, Balaji Srinivasan1; 1IIT Madras, India.
We propose a combination of frequency correlation and temporal gating techniques to map
the correlation peaks, investigate their tunability
through simulations and experiments. Correlation
peaks in 1 km fiber are tracked with 100 ns pulses.
ASu2A.141
Tapered Optical Fiber Polymerized with 4-vinylphenylboronic Acid for Glucose Sensing,
Chao Huang1, Xueteng Cao2, Lei Chen1, Nana Li1,
Qi Liang1, Xiaolan Sun1, Zesheng An2; 1The Key
Lab of Specialty Fiber Optics and Optical Access
Networks, Shanghai Univ., China; 2Insititute of
Nanochemistry and Nanobiology, Shanghai Univ.,
China. We report a miniature glucose sensor that
consists of a tapered optical fiber polymerized
with thin 4-vinylphenylboronic acid polymer film.
The intensity of light reflected from the fiber tip
increases with the concentration of glucose solution ascending from 0 mM to 60 mM.
ASu2A.138
Application of strain difference model and
FBG sensor to power transmission line ice
monitoring, Zhiming Liu1, Zhiguo Zhang1, Cilin
Liu1, Luming li2; 1Beijing Univ. of Posts and Telecomm, China; 2Information and Communications
branch, Jiangxi Electric Power Company, China.
This paper is for monitoring real-time ice thickness of transmission lines, proposing a method
based on fiber Bragg grating and strain difference
model. The experiment results show that average
deviation is less than 0.5 mm.
ASu2A.139
Numerical Simulations of Optical Near-field
Probes, Lei Chen1, Yumin Liu1, Zhongyuan Yu1;
1
Beijing Univ. of Posts and Telecommunications,
China. Laser-irradiated metal tips probes and aperture probes are simulated by the finite element
method.The expected local-field enhancement
and high light-throughput are obtained by modeling with optimized geometric parameters,opticalforces related formulas are also elaborated.
ASu2A.142
Organic Vapor Sensing with Silicon QuantumDot-Coated Optical Fiber, Zhi-Hong Zhang1,
Shao-Yi Wu1, Chang-Chun Ding1, Xiao-Hong
Chen2; 1School of Physical Electronics, Univ. of
Electronic Science and Technology of China,
China; 2School of Physics and Chem istry, Research Center for Advanced Com putation, Xihua
Univ., China. Silicon quantum dots coupled to
an optical fiber was used as a probe to detect
organic vapors for sensing applications. The sensor shows a high sensitivity and specificity due to
the surfaces of the dots.
Sunday, 22 November
ASu2A.128
A Depth Map-Generation Method Based on
Geometric Information and Grab Cut Matting,
Zheng Liu1, Xinzhu Sang1, Nan Guo1, Duo Chen1,
Qiao Zhong1, Chongxiu Yu1, Kuiru Wang1, Binbin
Yan1, Jinhui Yuan1, Wenhua Dou2, Liquan Xiao2;
1
Beijing Univ. of Posts and Telecommunications,
China; 2National Univ. of Defense Technology,
China. The conversion of existing 2D to 3D videos
is important in 3D display. A depth extraction
method based on geometric information and
grab cut matting is presented, which can generate
depth maps with high quality.
ASu2A.129
Integrated Photonic Generation of MicrowaveMultiplicated Signal and Amplitude-Shift Keying Signal, Yun Long1, Linjie Zhou2, Jian Wang1;
1
Wuhan National Laboratory for Optoelectronics,
China; 2State Key Laboratory of Optical Comm.
Technologies and Networks, China. We experimentally demonstrate a simple and compact photonic scheme to obtain frequency-multiplicated
microwave signal based on a single integrated
silicon Mach–Zehnder modulator (MZM). Using
the fabricated integrated MZM, we also demonstrate the feasibility of microwave amplitude-shift
keying (ASK) modulation based on integrated
photonic approach.
ASu2A.143
Phase-sensitive OTDR system based on selfmixing demodulation, Haijun He1, Li-Yang Shao1;
1
Southwest Jiaotong Univ., China. A self-mixing
signal demodulation method has been proposed
for the phase-sensitive OTDR system. The experiment has been implemented to prove the
proposed method by simultaneously determining the frequency and location of the vibration
interference on a 10km fiber.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 55
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Room N201, HKCEC
ASu2A.144
Multiplexed Fiber-optic Methane Sensors
Based on Optical Coherence Domain Reflectometry, Shun Li1, Xin y. Fan1, Qing w. Liu1, Zu y.
He1; 1State Key Lab of Advanced Optical Communication Systems and Networks, Shanghai
Jiaotong Univ., China. We propose a simple
fiber-optic sensing technology for real-time multiplexed monitoring the methane concentration
based on optical coherence domain reflectometry
by synthesis of optical coherence function, and
demonstrated three compact gas cells spliced
in series.
Sunday, 22 November
ASu2A.145
Practical Pattern Recognition System for Distributed Optical Fiber Intrusion Monitoring
System Based on Phase-Sensitive Coherent
OTDR, Cong Cao1, Xin y. Fan1, Qing w. Liu1, Zu y.
He1; 1Shanghai JiaoTong Univ., China. A perimeter
security monitoring system based on Φ–COTDR
is proposed. By using support vector machine
(SVM) through a three–dimensional feature vector, an identification accurate rate of 92.62% on
average for five events is achieved.
ASu2A.146
Performance enhancement of phase-demodulated Φ-OTDR with signal processing, Song
Wang1, Li Zhang1, Yi Li1, Mengqiu Fan1, Zinan
Wang1, Yun-Jiang . Rao1; 1Univ. Electronic Sci. &
Tech. of China, China. In order to enhance the
signal-to-noise-ratio of a distributed acoustic
sensing system based on Φ-OTDR, we proposed
the combination of segmented unwrapping algorithm, averaging estimation of phase difference
and IIR filtering method. The enhancement of
signal quality is numerically demonstrated.
ASu2A.147
High sensitive sensing characteristics of surface
plasmon coupling gratings, Rui Ma1, Yumin Liu1,
Zhongyuan Yu1; 1Keyanlou 339, Beijing Univ. of
Posts and Telecommunications, China. We propose a application of end-fire coupling gratings
as sensor of refractive index. The refractive index
sensitivity can reaching 2000 nm/RIU. This work
has potential for designing refractive index sensors and other surface plasmon devices.
ASu2A.148
Fully Distributed Optical Fibre Sensors For Seismic Wave Detection, Gaosheng Fang1, Tuanwei
Xu1, Fang Li1; 1Inst. Semiconductors, CAS, China.
A fully distributed optical fibre sensors based on
Φ-OTDR is proposed. Experiments are carried out
to detect seismic wave signal, which demonstrate
our solution is an effective technical solution for
energy service.
ASu2A.152
All-Fiber in-Line SNS Structure Liquid Level
Sensor, Yongqiang Wen1, Li Xia1, Yanli Ran1, Jalal
Rohollahnejad1, Deming Liu1; 1Huazhong Univ of
Science & Technology, China. In this paper we
demonstrate a liquid level optical fiber sensor
based on SNS structure with a water level range
of 280mm, 26.6pm/mm sensitivity and 0.9994
linearity.
ASu2A.149
Intelligent Distributed Acoustic Sensing System
Based on Φ-OTDR and Phase Generated Carrier
Algorithm, Xu Tuanwei1, Gaosheng Fang1, Fang
Li1; 1Inst Semiconductor, CAS, China. We propose
an intelligent distributed acoustic sensing system
based on phase generated carrier algorithm and
Φ-OTDR. Experiments are carried out to demonstrate the feasibility of the system with correct
demodulation and flat frequency response.
ASu2A.153
Inclination Control of Laser Beam for Environmental Sensing Network with Optical Wireless
Terminal, Kyo Yoishioka1; 1Kochi Univ. of Technology, Japan. We demonstrate method to scan laser
beam and find optical wireless terminal, which
collects environmental information around the
terminal, such as temperature and humidity. We
implement thresholding and labeling algorithm
to identify the terminal.
ASu2A.150
An 86 km direct detection POTDR with copumping 2nd Raman amplification based on
random fiber lasing, Yuanwei Zheng2, Yi Li1,
Zhenshi Sun1, Mengqiu Fan1, Huijuan Wu1, Zinan
Wang1, Yun-Jiang . Rao1; 1Univ. Electronic Sci. &
Tech. of China, China; 2Guizhou Power Grid Information and Communication Company, China.
An 86 km long POTDR system with 20m spatial
resolution has been experimentally demonstrated
with direct detection. Co-pumping 2nd Raman
amplification based on random fiber lasing is
used to amplify the pulsed probe along the fiber,
significantly extends sensing distance.
ASu2A.154
Metal-Waveguide-Capillary Based PhotometerApplication to Ultra-sensitive Detection of
Red Liquid Samples, Min Bai1, Hui Huang1, Jian
Hao1, Ji Zhang1, Haibo Wu1, Bo Qu1; 1Dalian
Univ. of Technology, China. Trace analysis of
liquid samples has wide applications in life science and environmental monitor. In this paper,
a compact and low-cost photometer based on
metal-waveguide-capillary(MWC) was developed
for ultra-sensitive absorbance detection.
ASu2A.151
Enhanced BOTDA Performance by Using
Commercial Optical Coherent Receiver and
Digital Signal Processor, Liang Wang1, Nan
Guo1, Kangping Zhong1, Xian Zhou1, Chao JIN1,
Chao Lu1, HawYaw Tam1; 1Hong Kong Polytechnic
Univ., Hong Kong. We have demonstrated the
use of commercial optical coherent receiver and
digital signal processor to receive and process the
BOTDA sensing signal. The configuration enables
communication compatible coherent reception
of BOTDA signal with enhanced performance.
ASu2A.155
Improvement of depth resolution in optical
coherence tomography of dispersive medium
with multiple reflections, Takanori Fujimoto1;
1
Kochi Univ. of Technolgy, Japan. We propose
and demonstrate a numerical method to improve
depth resolution for dispersive medium in Fourier domain optical coherence tomography. Our
method can numerically cancel out the dispersion
effect without any additional components.
ASu2A.156
Measuring Three-Dimensional Refractive Index
Maps of Injection-Molded Plastic Lenses Using
Optical Diffraction Tomography, Kyoohyun Kim1,
YongKeun Park1; 1KAIST, Korea (the Republic of).
We present a novel technique to measure 3-D
internal structures of optical plastic lenses. Using optical diffraction tomography with sample
rotation, 3-D refractive index distribution of
plastic lenses is reconstructed with high spatial
resolution.
ASu2A.160
SI-CARS: CARS Microscopy beyond the Diffraction Limit by Structured Illumination, Christian
Pilger1, Henning Hachmeister1, Marcel Müller1,
Gerd Wiebusch1, Thomas . Huser1; 1Biomolecular
Photonics, Uni Bielefeld, Germany. CARS is an
established label-free microscopy technique,
but still limited in its spatial resolution by the diffraction limit. Combining CARS with structured
illumination holds the potential of a two-fold
resolution enhancement.
ASu2A.157
Withdrawn.
ASu2A.161
Fiber-laser-based 1.2 micron femtosecond
Cherenkov radiation source and its applications on nonlinear light microscopy, Jui Wen
Pan1; 1Inst. of Photonic System, Taiwan. Despite
communications and machining, fiber lasers can
be utilized for nonlinear light microscopy. 1.55
mm pulses from an Er-doped-fiber-laser were
transformed into 1.2-mm and the practical use
of the fiber-optic on nonlinear microscopy was
demonstrated.
ASu2A.158
Hybrid application of complex wavefront
shaping optical coherence tomography and
optical clearing agents for the penetration
depth enhancement, Hyeonseung Yu1, Jaehyun
P. Lee2, YoungJu Jo1, Yong Jeong2, Varley Tuchin3,
YongKeun Park1; 1Department of Physics, Korea
Advanced Inst. of Science and Technology, Korea
(the Republic of); 2Department of Bio and Brain
Engineering, Korea Advanced Inst. of Science
and Technology, Korea (the Republic of); 3Saratov
State Univ.,, Russian Federation. We demonstrate
that simultaneous application of optical clearing
agents (OCAs) and complex wavefront shaping in
a spectral domain optical coherence tomography
(SD-OCT) system can provide significant enhancement in the penetration depth. The concurrent
applications of two methods successfully operate
in tissue phantom and ex-vivo mouse ear imaging.
ASu2A.159
Label-free analysis and identification of white
blood cell population using optical diffraction
tomography, Jonghee Yoon1, Kyoohyun Kim1,
Min-hyeok Kim2, YoungJu Jo1, Suk-Jo Kang2,
YongKeun Park1; 1Physics, KAIST, Korea (the Republic of); 2Biological science, KAIST, Korea (the
Republic of). We present a label-free method for
analysis and identification of mouse white blood
cell(WBC) populations using three-dimensional
refractive index(RI) tomograms. RI tomogram
provides biochemical and structural information
of WBCs, which enables classification of WBC
subtypes.
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Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 57
2015ACP Program.indd 57
11/5/15 3:02 PM
ACP 2015 — Sunday, 22 November
Conference Room N202
Conference Room N204/205
11:30–13:00
ASu3A • Photonic Integrated
Circuits III
Presider: Koji Yamada; AIST, Japan,
Japan
11:30–13:00
ASu3B • Semiconductor Lasers
Presider: Lei Zhang, Chinese
Academy of Sciences, China
ASu3B.1 • 11:30 Invited
Nonlinear Dynamics for Integrated Twinmicrodisk Laser with Mutually Optical Injection,
Yong-Zhen Huang1, Ling-Xiu Zou1, Xiu-Wen Ma1,
Yue-De Yang1, Jin-Long Xiao1, Yun Du1; 1Inst. of
Semiconductors, Chinese Academy of Sciences,
China. We study the nonlinear characteristics of
an integrated twin-microdisk semiconductor laser
under mutually optical injection. Four-wave mixing, injection locking, and period-two oscillation
states are observed by adjusting the injection
currents of the two microdisks.
ASu3A.2 • 12:00
Non-periodic high contrast gratings reflector
with focusing ability, Wenjing Fang1, Yongqing
Huang1; 1State Key Laboratory of Information
Photonics and Optical Communications, Inst. of
Information Photonics and Optical Communications, BUPT, China. High contrast gratings (HCGs)
focusing reflector providing phase front control
of the reflected light as well as high reflectivity
is suggested and experimentally investigated.
The fabricated mirror was demonstrated to have
excellent beam focusing ability.
ASu3B.2 • 12:00
DWELL based laser structure grown by LPMOCVD using InGaP as p-doped cladding
layer, Xin Gu1, Qi Wang1, Xiaomin Ren1, Hao Liu1,
Guoming Mao1, Shiwei Cai1, Xia Zhang1, Yongqing Huang1; 1BUPT, China. A dot-in-well structure
with InGaP p-doped cladding layer was grown
by LP-MOCVD. The investigation of replacing
the AlGaAs cladding layer by In0.49GaP as well as
the optical properties of laser structure has been
demonstrated.
11:30–12:45
ASu3C • Fiber Lasers II
Presider: Alexander Argyros; Univ. of
Sydney, Australia
ASu3C.1 • 11:30 Invited
Efficient Parametric Conversion for High Power
Mid-infrared Laser Output, Yonghang Shen1,
Peipei Jiang1, Bo Wu1, Chengzhi Hu1, Jie Wang1;
1
College of Optical Science and Engineering,
Zhejiang Univ., China. We report some of our
recent work on the ps pulse bunch mid-IR laser
output at 3.8 μm through the quasi-synchronized
pump scheme. Efficient parametric conversion
was realized with a maximum average output
power of 7.5 W at 3.8 μm and theconversion
efficiency of 16%.
Sunday, 22 November
ASu3A.1 • 11:30 Invited
Facilitating an Integrated Silicon Photonics
Platform, Graham T. Reed1, Li Ke1, David Thomson1, Shenghao Liu1, Peter R. Wilson2, Youfang
Hu1, Robert T. Topley1, Frederic Gardes1, Ali Z.
Khokhar1, Stevan T. Stankovic1, Reynolds Scott1,
Colin J. Mitchell1, G Martinez-Jiminez1, Liam
O’Faolain3, Noel Healy1, Sakarellis Mailis1, Anna
Peacock1, Goran Z. Mashanovich1; 1Univ. of Southampton, Univ. of Southampton, UK; 2EEE, Univ.
of Bath, UK; 3Physics and Astronomy, St Andrews,
UK. This paper summarises our recent work on an
integrated silicon modulator and driver to achieve
up to 30Gb/s, with an extinction ratio in excess
of 4dB, a fabrication tolerant multiplexer, and a
device to facilitate wafer scale testing.
Conference Room N208
ASu3C.2 • 12:00
Widely Tunable Narrowband Terahertz Source
Based on Difference Frequency Generation
from Parameter Light Source, Zhaohui Wu1,
Sigang Yang1, Xiaojian Wang1, Minghua Chen1,
Hongwei Chen1, Shizhong Xie1; 1Department of
Electronic Engineering, Tsinghua Univ., China. A
narrow-band tunable terahertz generation system
from 1 THz to 2 THz is built based on difference
frequency generation pumped by all-fiber highly
coherent dual-wavelength light sources from
optical parametric process.
Conference Room N207
11:30–12:45
ASu3D • Nanomaterials for THz
Devices
Presider: Ci-Ling Pan; National Tsing
Hua Univ., Taiwan
ASu3D.1 • 11:30 Tutorial
Nanostructured Transparent Conducting Oxides: Characteristics and Applications in the
THz Frequency Range, Ci-Ling . Pan1; 1Dept.
of Physics, National Tsing Hua Univ., Taiwan.
Transparent conducting oxides (TCOs), with
high optical transparency and excellent electrical
conductivities, form a group of technologically
important materials For example, indium tin oxide
(ITO) thin films are widely used as transparent
electrodes in optoelectronic devices for visible
wavelengths. It is well-known, however, that ITO
thin films exhibit high reflectance and strong
absorption in the terahertz (THz) frequency range.
Recently, ITO nanomaterials have attracted a lot
of attention, because of its omidirectional and
wideband anti-reflection characteristics in the
visible and near infrared. These can be used effectively as functional transparent electrodes in the
THz frequency range as well. In this tutorial, we
will present the fabrication and characterization
of several TCOs, including ITO nanomaterials,
graphene, and several types of bulk TCO thin
films, e.g., AZO and AYZO, for THz applications..
Performance of THz phase shifters with ITO nanomaterials and graphene as transparent electrodes
are presented. A graphene-based phase shifter
can achieve a phase shift of π/2 at 1.0 THz with
an operating voltage of ~2.2 V (rms) which is the
lowest driving voltage reported for such devices,
to the best of our knowledge.
Conference Room N211
11:30–12:45
ASu3E • Access Networks for Next
Generation Wireless
Presider: Yuki Yoshida, Osaka Univ.,
Japan
ASu3E.1 • 11:30
Cost Effective Self-Seeded WDM Mobile Fronthaul with Adaptive Crosstalk Cancellation and
Bit Loading OFDM, Lei Zhou1, Ning Cheng2; 1Advance Access Network Research Center, Huawei
Technologies, China; 2American Research Center,
Huawei Technologies, USA. Cost-effective mobile
fronthaul is implemented using a self-seeded
RSOA with 1.5GHz bandwidth. Significant performance improvement is achieved with adaptive
crosstalk cancellation and dynamic bit loading,
and a capacity of 6.27Gb/s is demonstrated for
20km transmission.
ASu3E.2 • 11:45
A First Demonstration of a PON-based Analog
Fronthaul Solution Supporting 120 20MHz
LTE-A Signals for Future Het-Net Radio Access, Chenhui Ye1, Xiaofeng Hu1, Xiaoan Huang1,
Qingjiang Chang1, Xiao Sun1, Zhensen Gao1,
Simiao Xiao1, Kaibin Zhang1; 1Alcatel-Lucent Bell
Labs Shanghai, China. A p2mp PON architecture
based analog mobile fronthaul approach that can
accommodate 120 channels of 20MHz 64QAM
LTE-A signals for Het-Net access has been experimentally demonstrated over sequential 20km
fiber and wireless interface.
ASu3E.3 • 12:00
A Resource Sharing C-RAN Architecture with
Wavelength Selective Switching and Parallel
Uplink Signal Detection, Weijia Du1, Haiyun
Xin1, Hao He1, Weisheng Hu1; 1SJTU, China. We
proposed a resource sharing architecture for
cloud radio access network based on wavelength
selective switching and parallel uplink signal
detection, which features flexible resource allocation and efficient resource saving for bidirectional
fronthaul transmission.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 58
2015ACP Program.indd 58
11/5/15 3:02 PM
Conference Room N212
11:30–13:00
ASu3F • DSP for Nonlinear Fiber
Transmissions
Presider: Chongjin Xie, Alibaba Inc.,
USA
ASu3F.1 • 11:30 Invited
Capacity of Nonlinear Fibre Channels and
Eigenvalue Division Multiplexing for Optical
Transmissions, Sergei K. Turitsyn1; 1Aston Inst. of
Photonic Technologies, Aston Univ., UK. The nonlinear Fourier transform, also known as eigenvalue
communications, is a coding, transmission and
signal processing technique that makes positive
use of the nonlinear Kerr effect in fibre channels.
I will discuss recent progress in this field.
Conference Room N206
11:30–13:00
ASu3G • Fi-Wi Networks
Presider: Paolo Monti; Kungliga
Tekniska Hogskolan, Sweden
ASu3G.1 • 11:30 Invited
Efficient Architecture Supporting Coordinated
Multipoint Transmission in Mobile Networks,
Mozhgan Mahloo 1, Lena . Wosinska 1, Jiajia
Chen1; 1Kungliga Tekniska Hogskolan, Sweden.
High-capacity architecture is proposed aiming to
fulfill stringent latency constraint for coordinated
multipoint transmission in mobile networks. It
offers obviously lower delay, cost and energy
consumption as well as better resiliency than the
conventional solutions.
Conference Room N203
11:30–13:00
ASu3H • SDN and Network Design
Presider: Georgios Zervas; Univ. of
Bristol, UK
ASu3H.1 • 11:30 Invited
Proactive Performance Monitoring in Software
Defined Networking, Lian-Kuan Chen1, HonTung Luk1; 1Department of Information Engineering, The Chinese Univ. of Hong Kong, Hong Kong.
To facilitate fast performance monitoring, proactive monitoring in Software Defined Networking is
proposed and different monitoring strategies are
discussed. The reduction of the acquisition time
and the additional blocking probability induced
are investigated.
Conference Room N209
11:30–12:30
ASu3I • Sensors and Biosensing II
Presider: Matthew Clark, Univ. of
Nottingham, UK
ASu3I.1 • 11:30
Sensitivity Enhancement In Optical Coherence
Tomography By Fiber Optical Parametric Amplifier, Jiqiang Kang1, Xiaoming Wei1, Bowen Li1,
Luoqin Yu1, Xie Wang1, Sisi Tan1, Kenneth Kin-Yip
Wong1; 1The Univ. of HongKong, Hong Kong.
We demonstrate an all-fiber optical parametric
amplifier for the optical coherence tomography
system with low illumination optical power for
bio-sample. A 15-dB sensitivity enhancement
is obtained in a spectral bandwidth of spanning
over 100 nm.
Conference Room N210
11:30–13:00
ASu3J • Radio Over Fiber II
Presider: Gong-Ru Lin; National
Taiwan Univ., Taiwan
ASu3J.1 • 11:30 Invited
Hybrid Fiber-Wireless Integration: Transport
Schemes vs Energy Consumption, Christina Lim1;
1
Univ. of Melbourne , Australia. In this paper, we
review the work we have conducted in the study
of energy consumption of fiber-wireless network
based on the different wireless transport schemes.
ASu3I.2 • 11:45
A Gold Nanoparticle Amplified Fiber Tapered
Biosensor Based on Mesoporous Silica Based
Nanospheres, Mingfei Ding1, Bai-Ou Guan1;
1
Jinan Univ., China. We present a label-free and
sensitivity-improved fiber tapered biosensor
based on mesoporous Ag@SiO2 nanospheres
, which is amplified by gold nanoparticle. And
the special silica based nano-film improves DNA
concentration sensitivity reaching to 1.388 nm/
log M with good linearity.
ASu3F.2 • 12:00
Impact of Frequency Offset and Laser Phase
Noise on Nonlinear Frequency Division Multiplexed Systems via the Nonlinear Fourier
Transform, Zhenhua Dong1, Tao Gui1, Chao Lu2,
Alan Pak Tao Lau1; 1EE, Hong Kong Polytechnic
Univ., Hong Kong; 2EIE, Hong Kong Polytechnic
Univ., China. We study the impact of frequency
offset and laser phase noise on the 3-eigenvalue
on-off keying modulated systems based on nonlinear Fourier transform. Simulation results show
that OOK modulated NFDM systems are robust
to the frequency offset and laser phase noise in
a certain range.
ASu3G.2 • 12:00 Invited
WDM Based Solutions and Technologies
for Mobile Fronthaul, Ning Deng1, Xu Zhou1;
1
Huawei Technologies Co Ltd, China. This paper
gives a review on typical optical system solutions,
especially WDM solutions, for mobile fronthaul
applications. The ITU-T G.metro solution and a
symmetric 25-Gb/s system based on remodulation are addressed in detail.
ASu3H.2 • 12:00 Invited
Scalable Virtual Optical Network Mapping
over Software-Defined Flexible Grid Optical
Networks, Xi Wang1, Mukul Prasad1, Fan Yu1,
Indradeep Ghosh1, Paparao Palacharla1, Qiong
Zhang1, Inwoong Kim1, Tadashi Ikeuchi1; 1Fujitsu
Laboratories of America, Inc., USA. Softwaredefined flexible grid optical networks enable
new revenue opportunities through delivery of
virtual optical network (VON) services. This paper
presents a scalable VON mapper for mapping
large number of VON demands with different
service attributes.
ASu3I.3 • 12:00
Linearization of broadband frequency sweep
for temperature tuned DFB laser using an
optoelectronic feedback loop, Jie Qin1, Qian
Zhou1, Weilin Xie1,2, Yi Dong1, Weisheng Hu1;
1
State Key Laboratory of Advanced Optical
Communication System and Networks, Shanghai
Jiao Tong Univ., China; 2Laboratoire Aimé Cotton, CNRS-Université Paris Sud 11-ENS Cachan,
Campus d’Orsay, France. We demonstrate broadband linear frequency sweep generation with a
tuning range of 200 GHz by a combination of
temperature tuning and optoelectronic feedback
compensation, its application in high resolution
FMCW reflectometry is successively verified.
Sunday, 22 November
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ACP 2015 — Sunday, 22 November
ASu3J.2 • 12:00 Invited
High-Precision Microwave Phase Transfer and
Remote Synchronization Using Frequency
Combs, Jungwon Kim1; 1Korea Advanced Inst
of Science & Tech, Korea (the Republic of).
We show high-precision microwave phase
transfer and remote synchronization by delivering frequency combs. Relative frequency
instability of 7×10-19 and 5-fs drift (over 8-h)
between two 2.856-GHz microwave sources
separated by 2.3-km fiber link are demonstrated.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 59
2015ACP Program.indd 59
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Sunday, 22 November
ACP 2015 — Sunday, 22 November
Conference Room N202
Conference Room N204/205
Conference Room N208
ASu3A.3 • 12:15
Sidewall-Grating-Assisted Polymer-Waveguide
Directional Coupler for Forward Coupling of
Fundamental Modes, Yan Wang2, Kaixin Chen2,
Lingfang Wang2, Kin S. Chiang2,1; 1City Univ. of
Hong Kong, Hong Kong; 2The Key Laboratory of
Optical Fiber Sensing and Communications, Univ.
of Electronic Science and Technology of China,
China. We demonstrate a sidewall-grating-assisted directional coupler for coupling between the
fundamental modes of a few-mode waveguide
and a single-mode waveguide. The maximum
coupling efficiency is ~99% with a thermal tuning sensitivity of 2.6 nm/°C for the wavelength.
ASu3B.3 • 12:15
Mode control for microcylinder laser with nonuniform pumping, Yue-De Yang1, Jin-Long Xiao1,
Zhi-Xiong Xiao1, Hai-Zhong Weng1, Yong-Zhen
Huang1; 1Inst Semiconductor, CAS, China. We
study the mode characteristics in microcylinders
with a lossy area, which can suppress whisperinggallery modes and generate high-Q coupled
modes. Single-mode operation is achieved in the
15-μm radius microcylinder laser with non-uniform
electrical pumping.
ASu3C.3 • 12:15
A Novel Bismuth-Doped Fiber Laser for CW
Operation between 1625 and 1775 nm, Sergei
V. Firstov1, Sergey Alyshev1, Konstantin Riumkin1,
Mikhail Melkumov1, Evgeny Dianov1; 1Fiber Optics Research Center, Russian Federation. A new
continuous-wave all-fiber bismuth-doped laser
with output radiation ranging from 1625 to 1775
nm has been developed. A maximum achieved
efficiency and output power were 33% and 1.05
W, correspondingly.
ASu3A.4 • 12:30 Invited
Back-end Photonics for Silicon-based Integrated Photonic Platform, Koji Yamada1; 1Natl
Inst. of Adv. Industrial Science and Technology,
Japan. Advanced functionality integration using
add-on waveguide systems on a silicon photonic
platform is reviewed. The add-on waveguide
systems, made of silicon-rich silica, silicon oxynitride, silicon nitride and amorphous silicon, are
constructed by back-end-on-line (BEOL) process
technologies.
ASu3B.4 • 12:30
1650-nm-band Tunable V-Cavity Semiconductor Laser, Haoyu Deng1, Yuan Zhuang1, JianJun He1; 1Zhejiang Univ., China. We present
a 1650-nm-band wavelength tunable V-cavity
semiconductor laser for applications in methane
detection. The laser does not require grating or
epitaxial regrowth. A tuning range of over 16nm
is achieved, with side mode suppression ratio
(SMSR) above 30dB.
ASu3C.4 • 12:30
Laser phase noise measurement by using an adjustment-free Michelson interferometer based
on 3×3 optical coupler, Dan Xu1, Fei Yang1, Dijun
Chen1, Haiwen Cai1, Ronghui Qu1; 1Chinese Academy of Sciences, USA. An adjustment-free laser
phase and frequency noise measurement based
on Michelson interferometer composed of 3×3
optical coupler was proposed. The differential/
instantaneous phase and frequency fluctuation
PSD of an NKT fiber laser were measured and
discussed.
Conference Room N207
Conference Room N211
ASu3E.4 • 12:15 Invited
Bandwidth-Efficient Mobile Fronthaul Transmission for Future 5G Wireless Networks,
Xiang Liu1, Huaiyu Zeng1, Naresh Chand1, Frank
Effenberger1; 1Huawei R&D, USA. We review
recent advances in bandwidth-efficient mobile
fronthaul transmission where multiple wireless
signals are aggregated and transmitted with their
spectral bandwidths unchanged. Applying this
technique to future 5G wireless networks with
massive-MIMO is also discussed.
ASu3D.2 • 12:30
Withdrawn.
ASu3B.5 • 12:45
Wide Wavelength Tuning in V-Coupled-Cavity
Laser integrated with a Fabry-Perot Filter,
Xiaolu Liao1, Jianjun Meng1, Jian-Jun He1; 1Zhejiang Univ. , China. We report our experimental
results on a V-coupled cavity semiconductor
tunable laser integrated with a Fabry-Perot tunable filter. Wavelength tuning of 43 channels with
100GHz spacing is demonstrated with side mode
suppression ratio around 40dB.
13:00–14:30 Lunch Break, On Your Own
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 60
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Conference Room N212
Conference Room N206
Conference Room N203
ASu3F.3 • 12:15
The Impact of Receiver IQ Imbalance on
Multi-soliton NFDM Transmissions with OOK
Modulation, Tao Gui1, Zhenhua Dong1, Chao Lu2,
Alan Pak Tao Lau1; 1Photonics Research Centre,
Department of Electrical Engineering, The Hong
Kong Polytechnic Univ., Hong Kong; 2Photonics
Research Centre, Department of Electronic and
Information Engineering, The Hong Kong Polytechnic Univ., Hong Kong. We studied through
simulations the impact of receiver IQ imbalance
on multi-eigenvalue on-off keying modulated
NFDM transmission systems. The results show
that the eigenvalues detecting of propagated
high order multi-solitons are very sensitive to the
receiver amplitude and phase imbalances.
Conference Room N209
Conference Room N210
ASu3I.4 • 12:15
Temporal-magnification tomography with
improved imaging stability, Bowen Li 1, Chi
Zhang2, Sisi Tan1, Yiqing Xu1, Xiaoming Wei1,
Jiqiang Kang1, Kenneth Kin-Yip Wong1; 1Univ. of
Hong Kong, China; 2Huazhong Univ. of Science
and Technology, China. The imaging stability of
temporal magnification tomography is improved
by phase locking the source repetition rate. The
influence of repetition-rate fluctuation on the system is analyzed and experimentally demonstrated
through imaging performance.
ASu3G.3 • 12:30
Novel Virtual Network Embedding Algorithm
Based on QoS Satisfaction for Fiber-Wireless
Access Network, Pengchao Han1, Yejun Liu1,
Lei Guo1, Jian Hou1, Xu Han1; 1Northeastern
Univ., China. This paper focuses on the virtual
network embedding problem in fiber-wireless
access network, and proposes an algorithm for
the embedding of virtual networks with different
QoS requirements. Simulation results verify the
effectiveness of proposed algorithm.
ASu3F.5 • 12:45
Fundamental Limitations of Digital Back Propagation due to Polarization Mode Dispersion,
Kseniia Goroshko1, Hadrien Louchet1, Andre Richter1; 1VPIphotonics, Germany. We investigate the
PMD-induced penalty on digital back propagation
by means of numerical simulations and show that
its mean and standard deviation correlate with
the accumulated link DGD. An analytical model
supports our numerical results.
ASu3G.4 • 12:45
Optimization Framework for Deployment of
Hybrid Fiber Wireless Networks with Survivability Constraints, Yinpeng YU1,2, Chathurika
Ranaweera1, Christina Lim1, Elaine Wong1, Lei
Guo2, Yejun Liu2, Ampalavanapillai Nirmalathas1,3;
1
The Univ. of Melbourne, Australia; 2Northeastern
Univ., China; 3Melbourne Networked Society
Inst., Australia. This paper presents an optimized
deployment framework of hybrid fiber wireless
networks integrating with connectivity, delay,
capacity, and survivability constraints. Simulation results demonstrate the feasibility of this
framework in the context of an urban deployment.
ASu3H.3 • 12:30 Invited
Applying Hadoop Cloud Computing Technique to Optimal Design of Optical Networks,
Yongcheng Li1, Gangxiang Shen1, Bowen Chen1,
Mingyi Gao1, Xiaodong Fu2; 1Soochow Univ.,
China; 2Zhongtian Broadband Technology, China.
We develop a Hadoop cloud computing system
to parallel solve the bin-packing optimization
problems in the optical network. Simulation
studies show that compared to a single machine,
the Hadoop system can significantly shorten
computation time while achieving performance
close to optimality.
ASu3J.3 • 12:30
Radio-over-fiber-based distributed antenna
system with transmit-receive antenna diversity
for passive UHF RFID, Dan Tan1, Jianqiang Li1,
Ningxi Gong1, Feifei Yin1, Yitang Dai1, Yue Zhou1,
Kun Xu1; 1Beijing Univ. of Posts and Telecommunications, Beijing, China., State Key Laboratory of
Information Photonics and Optical Communication, China. RFID has played an important role in
the fields of intelligent production. However, the
tag detection accuracy is always a tough problem. In this paper, we proposed and established
a new RoF DAS RFID system with RF switches.
The demonstrator system shows that new approach can improve the tag detection accuracy
by almost 15%.
ASu3J.4 • 12:45
An M-ary SVM-Based Detection for 16-QAM
RoF System with Data-Dependent Cross Modulation Distortion, Dan Li1, Song Yu1, Tianwei
Jiang1, Yi Han1, Wanyi Gu1; 1State Key Laboratory
of Information Photonics and Optical Communications, Beijing Univ. of Posts and Telecom, China.
An M-ary support vector machine (SVM) detection
is proposed for modulation nonlinearity limited
radio-over-fiber (RoF) system with realistic signal.
At low BER, it doubles the RF power operating
range compared with traditional hard-decision
detection.
Sunday, 22 November
ASu3F.4 • 12:30
Optimized SVM-based Decision Processor for
16QAM Coherent Optical Systems to Mitigate
NLPN, Danshi Wang1; 1Beijing Univ Posts &
Telecommunications, China. Based on the crossvalidation and grid-search, a parameter optimization method for SVM-based decision processor
is proposed. Compared with random selection
scheme, the performance is improved significantly, and the BER reaches lower than 3.0×10-4.
13:00–14:30 Lunch Break, On Your Own
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 61
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ACP 2015 — Sunday, 22 November
Conference Room N202
Conference Room N204/205
14:30–16:00
ASu4A • Integrated Nonlinear
Optics
Presider: David J. Moss, Australia
14:30–16:00
IPOC Special Tutorial
Latest Novel Understandings of
Electron States Architectures in
Crystalline Materials and Likely of
the Whole Physics
14:30–16:00
ASu4B • Specialty Optical Fiber
Presider: Chris Xu; Cornell Univ., USA
Conference Room N207
14:30–16:00
Industry Forum
ASu4B.1 • 14:30 Invited
Recent Research and Development Progress
on Photonic Specialty Fiber, Weijun Tong1,2;
1
YOFC, China; 2State Key Laboratory of Optical Fiber and Cable Manufacture Technology,
China. Specialty fiber has important applications
in optical fiber devices. YOFC’s recent progress
on specialty fibers like coupler fiber, device-type
PMF, active fiber for fiber lasers and so on will
be demonstrated.
Conference Room N211
14:30–16:00
ASu4C • Data Center Optics
Presider: Tomoo Takahara, Fujitsu
Limited, Japan
ASu4C.1 • 14:30 Invited
Optical Interconnects in Data Centers, Chongjin
Xie1; 1Ali Infrastructure Service, Alibaba Group,
China. We discuss optical interconnect technologies for intra-datacenter networks and show that
with the network speed moving up to 100Gb and
400G, no single technology can satisfies the need
of all datacenters.
Sunday, 22 November
ASu4A.1 • 14:30 Invited
New CMOS Compatible Platforms for Integrated Nonlinear Optics, David J. Moss1,2;
1
Micro-Nano Research Facility, RMIT Univ.,
Australia; 2Electrical and Computer Engineering, RMIT Univ., Australia. This paper reviews
recent progress in CMOS-compatible platforms
for nonlinear optics including amorphous silicon
and Hydex, highlighting their new capabilities
such as on-chip optical frequency comb generation and ultrafast optical pulse generation and
measurement.
Conference Room N208
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 62
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ACP 2015 — Sunday, 22 November
Conference Room N212
14:30–16:00
ASu4D • Coherent Optical Signal
Processing
Presider: Chester C.T. Shu; Chinese
Univ. of Hong Kong, Hong Kong
ASu4D.1 • 14:30 Tutorial
Coherent Signal Processing: Fundamentals and
Applications, Stojan Radic1; 1ECE Dept./Univ. of
California, San Diego, USA. Hybrid, photonicselectronics signal processing is becoming increasingly important with introduction coherent
modulation formats. Bridging the speed- and
dissipation-gap imposed by electronics, hybrid
processor has widespread use in communications,
sensing and general computing.
Conference Room N206
14:30–15:45
ASu4E • SDN and EON II
Presider: Biswanath Mukherjee; Univ.
of California Davis, USA
14:30–16:00
ASu4F • SDN
Presider: Lei Guo; Northeastern Univ.
(China), China
ASu4F.1 • 14:30
Experimental Demonstration and Assessment
of Multi-Domain SDTN Orchestration Based on
Northbound API, Hui Ding4, Guoying Zhang4,1,
Yunbo Li2, Ruixue Gong3, Zhengxin Guo3; 1Information Photonics and Optical Communication
Inst., Beijing Univ. of Posts and Telecommunications, China; 2China Mobile Research Inst., China;
3
Beijing Univ. of Posts and Telecommunications,
China; 4China Academy of Information and Communication Research, China. We present the
experimental demonstration of a multi-domain
SDTN network orchestration architecture through
northbound interface. The interoperability among
different vendor OTN equipment via the controller NBI is successfully validated and orchestration
performance is assessed.
Conference Room N209
14:30–15:45
ASu4G • Label Free Techniques
Presider: Wei Chen, Univ. of Central
Oklahoma, USA
ASu4G.1 • 14:30 Invited
Quantitative Phase Imaging Techniques for the
Study of Pathophysiology of Cells and Tissues,
YongKeun Park1; 1Department of Physics, Korea
Advanced Inst of Science & Tech, Korea (the
Republic of). We will discuss about the recent
technical developments for measuring three
dimensional refractive index distributions of individual biological cells and tissues. In particular,
we will present optical techniques which convert
an existing optical microscope into a quantitative
phase microscope.
ASu4F.2 • 14:45
Demonstration of Hierarchical Control for
Multi-domain and Multi-vendor Softwaredefined Packet Transport Network, Xinjun Liu1,
Rentao Gu1, Han Li2, Yanxia Tan1, Lei Wang2, Lin
Bai1, Qin Li2, Jie Zhang1, Yuefeng Ji1; 1Beijing Univ.
of Posts and Telecomm, China; 2China Mobile Research Inst., China. We demonstrate a hierarchical
controller architecture for multi-domain and multivendor packet transport networks using enhanced
Ryu controller, allowing dynamic load balancing
and fast path protection, which are validated in
a multi-vendor SPTN testbed.
Conference Room N210
14:30–16:00
ASu4H • Modulation and
Multiplexing Techniques
Presider: Christina Lim; Univ. of
Melbourne , Australia
ASu4H.1 • 14:30 Invited
Fractional-OFDM Transmission for Time/
Frequency Multiplexing in Elastic Networks,
Tsuyoshi . Konishi1, Takuya Murakawa1, Tomotaka Nagashima 1, Satoshi Shimizu 2, Makoto
Hasegawa1, Kuninori Hattori3, Masayuki Okuno3,
Shinji Mino3, Akira Himeno3, Naoya Wada2, Hiroyuki Uenohara4, Gabriella Cincotti5; 1Graduate
School of Engineering, Osaka Univ., Japan; 2NICT,
Japan; 3NTT Electronics, Japan; 4Tokyo Inst. of
Technology, Japan; 5Univ. Roma Tre, Italy. We have
demonstrated a hybrid OFDM/N-OTDM using an
time/frequency grid based on Fractional-OFDM
to exploit latent flexibility in multiplexing for
elastic networks. This scheme allows us to switch
either OFDM or N-OTDM at a receiver.
Sunday, 22 November
ASu4E.1 • 14:30 Invited
Survivable Multicast Routing and Spectrum
Assignment in Light-Tree-Based Elastic Optical Networks, Anliang Cai1, Moshe Zukerman1,
Rongping Lin3, Gangxiang Shen2; 1EE Dept,
City Univ. of Hong Kong, Hong Kong; 2School
of Electronic and Information Engineering, Soochow Univ., China; 3School of Communication
& Information Engineering, Univ. of Electronic
Science and Technology of China, China. We
formulate MILP models and develop efficient
heuristic algorithms for survivable multicast routing and spectrum assignment in light-tree based
elastic optical networks considering physical layer
impairments. Numerical results demonstrate the
performance of our heuristics.
Conference Room N203
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 63
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ACP 2015 — Sunday, 22 November
Sunday, 22 November
Conference Room N202
Conference Room N204/205
Conference Room N208
Conference Room N207
Conference Room N211
ASu4A.2 • 15:00
Enhanced self-phase modulation in silicon
suspended membrane waveguides, Yaojing
Zhang1, Zhenzhou Cheng1, Linghai Liu1, Bingqing
Zhu1, Jiaqi Wang1, Wen Zhou1, Xinru Wu1, Hon
K. Tsang1; 1The Chinese Univ. of Hong Kong,
Hong Kong. We experimentally compared the
self-phase modulation (SPM) in conventional
silicon-on-insulator (SOI) waveguides and silicon
suspended membrane waveguides (SMWs) by
measuring the spectral broadening of optical
pulses. Enhanced SPM was observed in SMWs.
ASu4B.2 • 15:00
3D printing optical fibre preforms, John . Canning1, Kevin Cook1, Yanhua Luo2, Sergio LeonLaval1, Gang-Ding Peng2, Eduoard Comatti1,
Arafat Hossain1, Zane Reid1; 1Univ. of Sydney,
Australia; 2UNSW, Australia. 3D printing of optical fibre preforms is reported. Tens of meters of
air-structured optical fibre made from a propriety
combination of acrylonitrile butadiene styrene
(ABS) and polystyrene is drawn. Propagation
losses better than α < 1.5 dB/cm @ 632 nm, α <
0.75 dB/cm @ 1064 nm, and α < 1.51 dB/cm @
1550 nm are obtained.
ASu4C.2 • 15:00
Comparing 52 Gbps Duobinary and 4-PAM
Transmission Over 100m OM-3 Fiber With 25
GHz Class VCSELs, Lau Suhr1, Ilya Lyubomirsky2,
Henry Daghighian2, Chris Kocot2, Idelfonso Tafur
Monroy1, Juan Jose . Vegas Olmos1; 1Technical
Univ. of Denmark, Denmark; 2Finisar Corp, USA.
This paper compares VCSEL based transmission
of 52 Gbps duobinary-NRZ and 4-PAM over
100m OM-3 fiber employing a linear equalizer
in the receiver.
ASu4A.3 • 15:15
Non-degenerate Two-photon Absorption
in Silicon Waveguides, Young Zhang1, Chad
Husko1,2, Simon Lefrancois1, Isabella H. Rey,4,
Thomas. Krauss4, Jochen S. Schroeder3, Benjamin
Eggleton1; 1Univ. of Sydney, Australia; 2Center for
Nanoscale Materials, Argonne National Laboratory, USA; 3School of Electrical and Computer
Engineering, RMIT, Australia; 4Department of
Physics, Univ. of York,, UK. We investigated nondegenerate two-photon absorption in silicon
waveguides using a probe-pump scheme. An
analytic solution of the probe is derived and a
simple approach is provided to experimentally
extract the effect of each loss on the pump and
probe powers.
ASu4B.3 • 15:15
Graded-Index Few-Mode Multi-Core Fiber with
Dual-Ring Structure, Jiajing Tu1, Keping Long1,
Kunimasa Saitoh2; 1Univ. of Sci & Tech Beijing,
China; 2Hokkaido Univ., Japan. We proposed a
two-mode supporting multi-core fiber with dualring structure. The maximum XT11-11 achieves -33
dB/100km, maximum Rpk is 11.03 cm, and RCMF
reaches 15.28.
ASu4C.3 • 15:15
Towards 100 Gb/s Serial Optical Links over
300m of Multimode Fibre Using Single Transverse Mode 850nm VCSEL, Bo Wu1, Xian Zhou2,
Nikolay Ledentsov3, Jun Luo1; 1Huawei Technologies Co., Ltd, China; 2Hong Kong Polytechnic
Univ., China; 3VI System GmbH, Germany. 82Gbps
(over 100m), 75Gbps (200m), and 72Gbps (300m)
transmission is achieved at BER <5e-3 using single
mode VCSEL and DMT modulation with received
optical power of -5 dBm. 100Gbps is evaluated
by reducing coupling loss.
ASu4A.4 • 15:30
Optical Absorption and Thermal Nonlinearities in Graphene-on-Silicon Nitride Microring
Resonators, Jiaqi Wang1, Zhenzhou Cheng1, Ke
Xu2, Chester C.T. Shu1, Hon K. Tsang1; 1Department of Electronic Engineering, The Chinese
Univ. of Hong Kong, Hong Kong; 2School of Electronic and Information Engineering, Harbin Inst.
of Technology, Shenzhen Graduate School, China.
We study thermal nonlinearities of grapheneon-silicon nitride (Si3N4) microring resonators.
The resonance lineshapes are experimentally
compared between 40 µm- and 70 µm- long
graphene integrated Si3N4 microring resonators
at different input optical powers.
ASu4B.4 • 15:30
Ultra-low loss fiber with segmented-core and
depressed inner cladding, Marzieh Pournoury1,
Ali Zamiri3, Dae Seung Moon2, Kyunghwan Oh1;
1
Yonsei Univ., Korea (the Republic of); 2Samsung
Electronics Co, Korea (the Republic of); 3School of
Mechanical Engineering, Korea (the Republic of).
A new ultra-low loss fiber is numerically proposed.
We have shown loss of less than 0.3dB/km at
1310nm, 0.18dB/km at 1550nm for step-index
fibers which consist of conventional glass compositions while satisfying ITU-G.652.D attributes.
ASu4C.4 • 15:30 Invited
Data Center Optics: the emerging scaling
challenges, Xiang Zhou1; 1Google inc, USA. This
talk will present an overview on large data center
interconnection network metrics and the emerging scaling challenges.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 64
2015ACP Program.indd 64
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ACP 2015 — Sunday, 22 November
Conference Room N212
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Conference Room N203
Conference Room N209
Conference Room N210
ASu4E.2 • 15:00
Spectrum-Maximized Sharing Protection in
Software-Defined Elastic Optical Networks,
Bowen Chen1, Xiaoling Wang1, Gangxiang Shen1,
Yongli Zhao2, Jie Zhang2; 1Soochow Univ., China;
2
Beijing Univ. of Posts and Telecommunications,
State Key Laboratory of Information Photonics
and Optical Communications, China. We develop a spectrum-maximized sharing protection
approach (SMSPA) to improve the spectrum
efficiency in software-defined elastic optical
networks. Simulation results show that SMSPA
significantly reduces the blocking probability and
spectrum occupation ratio.
ASu4F.3 • 15:00
Demonstration of Spectrum Aggregation for
Virtual Optical Network Embedding in Software Defined Optical Networks, Wei Wang1,
Haomian Zheng2, Yongli Zhao1, Jie Zhang1, Haoran Chen1, Yi Lin2, Baogang Hou2, Jianrui Han2;
1
State Key Laboratory of Information Photonics
and Optical Communications, Beijing Univ. of
Post and Telecom, China; 2Huawei Technologies
Co., Ltd., China. A Spectrum Aggregation scheme
based on Logical Neighbor Node (SA-LNN) is
proposed for Virtual Optical Network (VON)
embedding in software defined optical networks.
SA-LNN is demonstrated on our testbed to verify
its rationality and feasibility.
ASu4G.2 • 15:00
Confocal surface plasmon microscopy with vortex beam illumination for biosensing application, Suejit Pechprasarn1, Wai-Kin Chow1, Jingkai
Meng1, Michael G. Somekh1; 1Electronic and
Information Engineering, Hong Kong Polytechnic
Univ., Hong Kong. In this paper, we demonstrate
that by employing vortex beam illumination and
radial polarization one can perform multiple
phase step measurement in one single measurement using our recently developed confocal
surface plasmon microscope.
ASu4H.2 • 15:00
Asynchronous Multiple Access in Visible Light
Communication System Based on DFT Spread
OFDM/OQAM, Junwei Zhang1, Xuezhi Hong1,
Liu Liu1, Sailing He2,1; 1South China Normal Univ.,
South China Academy of Advanced Optoelectronics, China; 2Royal Inst. of Technology (KTH),
JORCEP (Sino-Swedish Joint Research Center
of Photonics), Department of Electromagnetic
Engineering, Sweden. A multiuser asynchronous
visible light communication system adopting DFT
spread (DFS-) OFDM/OQAM is proposed and
experimentally demonstrated. Both high spectral
locality and low peak-to-average power ratio
are achieved with DFTS-OFDM/OQAM, which
improves system’s transmission performance.
ASu4E.3 • 15:15
Electronic Traffic Grooming in Dedicated Path
Protected IP over Elastic Optical Network ,
Fengxian Tang1, Gangxiang Shen1, Lian Xiang1,
Mingyi Gao1; 1School of Electronic and Information Engineering, Soochow Univ., China. We propose different electronic traffic grooming schemes
for IP over elastic optical networks with dedicated
path protection. Simulation results show that the
proposed approaches can significantly improve
network capacity unitization and reduce the
number of transponders.
ASu4F.4 • 15:15
Demonstration of Bandwidth on Demand
(BoD) Provisioning based on Time Scheduling
for Multi-tenants in Software Defined Data
Centers Optical Networks, Fan Yi1, Yongli Zhao1,
Jie Zhang1; 1Beijing Univ of Posts & Telecom,
China. A dynamic bandwidth on demand (BoD)
provisioning solution based on time scheduling
is experimentally demonstrated on software
defined data center optical networks (SD-DCON)
testbed. The performance of blocking probability
and resource utilization for multi-tenants has been
evaluated with experimental results.
ASu4G.3 • 15:15
Surface and bulk refractive index measurement using ultra-thin sliver-coated tilted fiber
grating, Xuhui Qiu1, Liu Liu1, Tuan Guo1, BaiOu Guan1, Jacques Albert2; 1Inst. of Photonics
Technology, Jinan Univ., China; 2Carleton Univ.,
Department of Electronics, Canada. High sensitive ultra-thin silver-coated tilted fiber grating
has been proposed for “surface” and “bulk”
surrounding refractive index (SRI) measurement
with an amplitude variation sensitivity of 8100 dB/
RIU and a limit of detection of 10-5 RIU.
ASu4H.3 • 15:15
Optical Single-Sideband Modulation Based
on Stimulated Brillouin Scattering, Di Zheng1,
Wei Pan1, Xihua Zou1, Weili Zhang2, XInkai Liu1;
1
Southwest Jiaotong Univ., China; 2Univ. of Electronic Science & Technology of China, China. A
novel approach for implementing optical single
sideband modulation (OSSB) based on stimulated Brillouin scattering is proposed. The OSSB
modulation is implemented over 7.5-20 GHz with
a sideband suppression ratio of 30 dB.
ASu4E.4 • 15:30
A Novel Migration-Aware Protection Scheme
in Co-Existing Fixed and Flexible Grid Optical
Networks, Yuanlong Tan1, Xiaosong Yu1, Yongli
Zhao1, Hui Yang1, Guoying Zhang1,2, Huixia Ding3,
Jie Zhang1; 1Beijing Univ. of Posts and Telecoms,
China; 2China Academy of Telecom. Research
(CATR), China; 3China Electric Power Research
Inst., China. This paper addresses the traffic
survivability issue in the migration scenario from
fixed grid to flexible grid in optical networks,
proposes a novel Migration-Aware Protection
(MAP) scheme, and evaluates its performance
under different traffic models.
ASu4F.5 • 15:30
Multi-layer SDN Control with Smart Service
Provision Strategy for Core Packet Optical Networks, Yu Zhou1, Shanguo Huang1, Shan Yin1, Jing
Zhou2, Lin Cui3, Yongli Zhao1, Jie Zhang1, Wanyi
Gu1; 1Beijing Univ. of Posts and Telecommunications, China; 2State Grid Smart Grid Research
Inst., China; 3State Grid Jiangsu Electric Power
Research Inst., China. A smart service provision
strategy is proposed for providing flexible services
based on Packet-Optical Convergence SDN control with dynamic allocation of transport resource
and service-aware control, and experimentally
demonstrated on the extended ONOS testbed.
ASu4G.4 • 15:30
Quantitative characterization of neurotoxicity
effects on individual neuron cells using optical
diffraction tomography, Jonghee Yoon1, Su-A
Yang2, Kyoohyun Kim1, YongKeun Park1; 1Physics,
KAIST, Korea (the Republic of); 2Biological science,
KAIST, Korea (the Republic of). We perform quantitative analysis of neurotoxicity effects induced by
MPP+ on individual neuron cells (SH-SY5Y) using
optical diffraction tomography. Neurotoxic effects
of MPP+ on SH-SY5Y cells were characterized by
quantitative structural and biochemical information obtained from measured three-dimensional
refractive index distributions.
ASu4H.4 • 15:30
Noise Tolerance in Modulation Format Conversion from QPSK to BPSK Using Four-WaveMixing in Highly Nonlinear Fiber, Rina Ando1,
Hiroki Kishikawa 1, Nobuo Goto 1, Shin-ichiro
Yanagiya1; 1Tokushima Univ., Japan. Conversion
between different modulation formats is one of
key processing functions for flexible networking.
We have proposed the conversion from QPSK
to BPSK using FWM and interference. The noise
tolerance is discussed using numerical simulation.
Sunday, 22 November
-
ASu4D.2 • 15:30 Invited
Coherent Optical Signal Processing using Optical Frequency Combs and Injection Locked
VCSELs, Peter J. Delfyett 1; 1Univ. of Central
Florida, USA. Optical frequency combs are used
as coherent orthogonal signals to realize ultrafast
signal processing. We demonstrate sampling,
arbitrary waveform generation and matched
filtering using combs and vertical cavity surfacing emitting lasers as modulation elements for
individual comb components.
Conference Room N206
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 65
2015ACP Program.indd 65
11/5/15 3:02 PM
ACP 2015 — Sunday, 22 November
Conference Room N202
ASu4A.5 • 15:45
Four Wave Mixing in a CMOS Compatible 5th
Order Cascaded Ring Resonators, Li Jin1, Alessia
Pasquazi2, Luigi Di Lauro2, Marco Peccianti2, Brent
E. Little3, David J. Moss4, Roberto Morandotti5, Sai
Tak Chu1; 1Department of Physics and Materials
Science, City Univ. of Hong Kong, Hong Kong;
2
Department of Physics and Astronomy, Univ. of
Sussex, UK; 3Xi’an Inst. of Optics and Precision
Mechanics of CAS, China; 4School of Electrical
and Computer Engineering, RMIT Univ., Australia;
5
INRS - Énergie, Matériaux et Télécommunications, Canada. Four-wave mixing in a thermal
tunable 5th order cascaded CMOS compatible
ring resonators is experimentally and numerically investigated. Flat bandwidth conversion
of 3.1GHz is obtained for a range of parameter.
Conference Room N204/205
Conference Room N208
Conference Room N207
Conference Room N211
ASu4B.5 • 15:45
A Supermode Fiber with Strong Mode Coupling for Space-Division Multiplexing, Jin Luo1,
Mei Sang1, Ningbo Zhao1, Jian Zhao1, Guifang
Li1,2; 1Tianjin Univ., China; 2Univ. of Central Florida,
USA. A supermode fiber is designed with appropriate parameters to obtain large mode field
overlap. Bending and tilted long-period gratings
are introduced to achieve strong mode-coupling
and significantly reduce the DMD in spacedivision multiplexing.
Sunday, 22 November
16:00–16:30 Coffee Break around Exhibition Area, Room N201, HKCEC
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 66
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ACP 2015 — Sunday, 22 November
Conference Room N212
Conference Room N206
Conference Room N203
Conference Room N209
ASu4F.6 • 15:45
Degree-Prior Distance-Adaptive Virtual Network Embedding Algorithm over Flex-Grid
Optical Network, Futao Yang1,2, Jie zhang2,
Lei Wang1, Xue Chen1, Yang Zhao1; 1State Key
Lab of Information Photonics and Optical Communications, Beijig Univ. of Posts and Tele communications, China; 2School of Physical Science
and Technology, Anshan Normal Univ., China.
We propose a heuristic algorithm about virtual
network embedding over flex-grid optical network to improve the utility efficiency of network.
Evaluation shows it obtains better performance
than current corresponding algorithm.
Conference Room N210
ASu4H.5 • 15:45
Ultra-wideband Monocycle Pulses Amplitude
Modulation Based on Integrated Microring
Modulator, Xinru Wu1; 1The Chinese Univ. of
Hong Kong, China. We experimentally demonstrate an approach for UWB monocycle pulses
generation and modulation simultaneously with
an integrated microring modulator. 2.5 Gb/s
amplitude modulated monocycle pulses are
modulated with a pattern without zero padding.
16:00–16:30 Coffee Break around Exhibition Area, Room N201, HKCEC
Sunday, 22 November
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 67
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Sunday, 22 November
ACP 2015 — Sunday, 22 November
Conference Room N202
Conference Room N204/205
16:30–18:00
ASu5A • Photodetectors
Presider: Toshimasa Umezawa;
National Inst of Information & Comm
Tech, Japan
16:30–18:00
ASu5B • Optical Modulators
Presider: Hon Tsang; Chinese Univ. of
Hong Kong, Hong Kong
Conference Room N208
16:30–18:00
ASu5C • Novel Fiber Devices I
Presider: Yonghang Shen; Zhejiang
Univ., China
Conference Room N207
16:30–18:00
Industry Forum
Conference Room N211
16:30–18:00
ASu5D • Spatial Division
Multiplexing II
Presider: Yoshinari Awaji, NICT, Japan
ASu5A.1 • 16:30 Invited
Bias-free high-baud-rate UTC-PD for highdensity implementations in parallel photonics,
Toshimasa Umezawa 1, Atsushi Matsumoto 1,
Kouichi Akahane1, Atsushi Kanno1, Naokatsu
Yamamoto1, Tetsuya Kawanishi1,2; 14-2-1, NukuiKitamachi, National Inst of Information & Comm
Tech, Japan; 2Waseda Univ., Japan. We discussed
crosstalk issues on parallel photonics assuming
high-density integration and these solutions. RF
crosstalk has become a more serious problem
than optical crosstalk. A bias free photoreceiver
was proposed and fabricated.
ASu5B.1 • 16:30 Invited
Silicon Photonics Based on Ge/SiGe Quantum
Well Structures, Delphine Marris-Morini1, Papichaya Chaisakul1, Jacopo Frigerio2, MohamedSaid Rouifed1, Vladyslav Vakarin1, Daniel Chrastina2, Xavier Le Roux1, Giovanni Isella2, Laurent
Vivien 1; 1Université Paris-Sud / IEF - CNRS,
Université Paris-Sud 11, France; 2L-Ness, Politecnico Di Milano, Italy. Ge/SiGe Quantum well
structures have a strong potential to revolutionize
silicon photonics. This paper reviews recent works
including high speed modulator and photodetector, QW engineering to tune the wavelength and
waveguide integration.
ASu5C.1 • 16:30 Invited
In–fiber Silicon Microshperes, Limin Xiao1,2,
Noel Healy2, Zondy Webber3, Thomas Hawkins4,
Max Jones4, John Ballato4, Ursula Gibson5, Anna
Peacock2; 1Dept. of Optical Science and Engineering, Fudan Univ., China; 2Optoelectronics
Research Centre,, Univ. of Southampton, UK;
3
Department of Physics and Astronomy, Univ.
of Southampton, UK; 4Department of Material
Science and Engineering, Clemson Univ., USA;
5
Department of Physics, Norwegian Univ. of Science and Technology, Norway. We have proposed
and demonstrated an approach to fabricate integrated in-fiber silicon microspheres, which have
nearly atomically smooth surface roughness ~0.16
nm. The hybrid structure forms a cavity with high
temperature sensitivity ~ 80 pm/°C.
ASu5D.1 • 16:30 Invited
Space Division Multiplexing for Optical
Networks, Ezra Ip1, Giovanni Milione1, Yue-Kai
Huang1, Ting Wang1; 1NEC Laboratories America
Inc, USA. We review few-mode fiber transmission
in terms of how DSP complexity and modedependent gain scales with the number of spatial
modes. FMF may be most suitable for short-reach
applications where MIMO equalization and inline
amplification are not required.
ASu5A.2 • 17:00
60 GHz Germanium Photodetector Using Wire
Bonding Technology, Guanyu Chen1, Yu Yu1,
Chunlei Sun1, Beibei Wu1, Shupeng Deng2, Lei
Liu2, Xinliang Zhang1; 1Wuhan National Laboratory for Optoelectronics & School of Optical and
Electronic Information, Huazhong Univ. of Science
and Technology, China; 2Transmission Technology
Research Department, Huawei Technologies,
China. We propose a new method for increasing
the bandwidth of the Ge photodetector using wire
bonding technology. Simulation and experimental
results show that the bandwidth can be extended
from less than 30GHz to over 60GHz.
ASu5B.2 • 17:00
Improvement in the modulation bandwidth of
MOS optical modulators by using p-SiGe slab,
Jaehoon Han1,2, Mitsuru Takenaka1,2, Shinichi
Takagi1,2; 1The Univ. of Tokyo, Japan; 2JST-CREST,
Japan. The modulation bandwidth of MOS optical modulators can be improved by low-resistive
p-SiGe slab. In conjunction with the enhanced
plasma dispersion in SiGe, the bandwidth can be
improved by 1.3 times with shorter device length.
ASu5C.2 • 17:00 Invited
Optical Pulse Compression Reflectometry with
High Spatial Resolution and Long Range, Weiwen Zou1, Jianping Chen1; 1State Key Laboratory
of Advanced Optical Communication Systems
and Networks, Shanghai Jiao Tong Univ., China.
In this talk, we introduce the novel reflectometry
with high spatial resolution and long range, which
is nominated optical pulse compression reflectometry (OPCR). The working principle, numerical
simulation, and state-of-the-art experimental
achievements of the OPCR are demonstrated.
ASu5D.2 • 17:00
Performance of Space-Division Multiplexed
Systems Adopting Multi-Core Fibers and
Receiver Diversity, Mai Banawan1, Amira Hussein1, Ziad A. El-Sahn1, Hossam M. H. Shalaby1,2;
1
Electrical Engineering Department, Photonics
Group, Egypt; 2Electronics and Communications
Engineering, Egypt-Japan Univ. of Science and
Technology, Egypt. The performance of MCFbased systems with MRC receiver diversity is
studied at different levels of inter-core crosstalk.
We demonstrate improvement in system performance at high values of crosstalk without the need
for extensive MIMO-DSP.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 68
2015ACP Program.indd 68
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ACP 2015 — Sunday, 22 November
Conference Room N212
16:30–18:00
ASu5E • Transceivers II
Presider: Fatih Yaman, NEC Labs
America, USA
Conference Room N206
16:30–18:00
ASu5F • Network Survivability
Presider: Gangxiang Shen; Soochow
Univ., China
ASu5F.1 • 16:30 Invited
Disaster Resilience in SDN: A Case Study,
Rakhee Tiwari1, Sedef Savas1, M. Farhan Habib1,
Pulak Chowdhury 1 , Biswanath Mukherjee 1 ;
1
Comp. Sci. Dept., Univ. of California Davis,
USA. Disaster-aware provisioning strategies
have been proposed to mitigate the damage of
large-scale disasters in optical networks. In this
study, we analyze the performance of SDN under
a disaster scenario through a network emulation
using Mininet.
ASu5E.2 • 17:00
Improved Generation Scheme of Multi-Carrier
Optical Source based on Re-circulating Frequency Shifter for Tbit/s Optical Transmission,
Zhuo Cai1, Ji Zhou1, Zufeng Liu1, Zhansheng
Wang1, Yaojun Qiao1; 1Beijing Univ Posts & Telecommunications, China. We propose an improved
generation scheme of multi-carrier optical source
based on recirculating frequency shifter. 76 optical
carriers with 3.1 dB flatness fluctuation and 38.1
dB carrier-to-noise ratio (CNR) were experimentally demonstrated.
ASu5F.2 • 17:00
Restoration with Service Degradation and
Relocation in Optical Cloud Networks, Meiqian Wang1, Marija Furdek1, Paolo Monti1, Lena
. Wosinska1; 1KTH Royal Inst. of Technology,
Sweden. The paper studies the improvement
of cloud service restoration by combining the
service degradation and relocation concepts.
Results demonstrate that it is possible to achieve
improvements in both cloud service availability
and restorability performance.
16:30–18:00
ASu5G • Software Defined
Hardware
Presider: Jie Zhang; Beijing Univ of
Posts & Telecom, China
ASu5G.1 • 16:30 Invited
Flexible Edge Nodes enabled by Hybrid Software Defined Optics & Networking, Juan Jose
. Vegas Olmos1, Victor Mehmeri1, Idelfonso Tafur
Monroy1; 1Ørsted Plads, Technical Univ. of Denmark, Denmark. This paper presents our vision
on flexible edge nodes for future networks and
our efforts to combine software defined optics
and software defined networking to optimize the
overall performance and user experience.
Conference Room N209
16:30–17:30
ASu5H • Ultrasonics and Pressure
Sensing
Presider: Donghyun Kim, Yonsei Univ.,
Korea
ASu5H.1 • 16:30 Invited
Cell Imaging With Sub-Optical Wavelength
Ultrasound, Matthew Clark1, Leonel Marques1,
Emilia moradi1, Fernando Perez-Cota1, Richard
J. Smith1, Kevin F. Webb1; 1Applied Optics, Univ.
of Nottingham, UK. At very high frequencies,
in the GHz region, the wavelength of ultrasound falls below that of visible light offering
an intriguing way to enhance the imaging resolution and gain new contrast for live cell imaging.
Conference Room N210
16:30–18:00
ASu5I • Optical Sources and
Detectors
Presider: Yuede Yang, Chinese
Academy of Sciences, China
ASu5I.1 • 16:30
Stabilize the Regeneratively Mode-Locked
Fiber Laser based on a Polarization Maintained
Dual-loop Structure, Zhengwu Wei1, Dan Zhu1,
Shilong Pan1; 1Nanjing Univ Aeronautics & Astronautics, China. A novel stable regeneratively
mode-locked fiber laser based on a polarization
maintained dual-loop structure is proposed.
Stable 10-GHz optical pulse train is successfully
generated with a side-mode suppression ratio of
58.4 dB being simultaneously realized.
ASu5I.2 • 16:45
Numerical Investigation on Frequency-modulated Continuous-wave Dynamics in a Semiconductor Laser, Jun-Ping Zhuang1, Xiao-Zhou
Li1, Song-Sui Li1, Sze-Chun Chan1,2; 1Department
of Electronic Engineering, City Univ. of Hong
Kong, China; 2State Key Laboratory of Millimeter
Waves, City Univ. of Hong Kong, China. The
nonlinear dynamical period-one oscillation of a
semiconductor laser under a modulated optical
injection is numerically investigated for photonic
generation of frequency-modulated continuouswave (FMCW) signals. The sweep range and
sweep rate of the generated FMCW signals are
both tunable.
ASu5G.2 • 17:00 Invited
Network, Compute and Storage Function
Programmability and Virtualization: An FPGAbased Disaggregated System, Georgios S. Zervas1, Qianqiao Chen1, Vaibhawa Mishra1; 1Univ. of
Bristol, UK. Software defined hardware programmability and virtualization framework of network
and computing is proposed and validated using
FPGA-based infrastructure with complex data and
image algorithms. The implemented platform is
supported by function re-configurable System/
Network on Chip.
ASu5H.2 • 17:00
High-performance fiber laser ultrasound detectors, Liang Yizhi1, Long Jin1, Linghao Cheng1,
Bai-Ou Guan1; 1Jinan Univ., China. We present
highly sensitive ultrasound detection by use of a
single mode fiber grating laser with a diameter
of 66 μm, by measuring the variation of beat frequency between the two orthogonal polarization
lasing modes. Based on the phase-locked loop
demodulation, a noise-equivalent pressure (NEP)
as low as 138 Pa over 100 MHz has been achieved.
ASu5I.3 • 17:00 Invited
Silicon Photonics Receivers for Advanced
Modulation Formats, Giampiero Contestabile1;
1
Scuola Superiore Sant’Anna, Italy. Three compact
silicon-photonics integrated receivers are presented. Two circuits are for the detection of DQPSK
signals. The third one is a coherent receiver with
a novel architecture without waveguide-crossing.
Results up to 28Gbaud are reported.
Sunday, 22 November
ASu5E.1 • 16:30 Invited
High Speed Coherent Transmission for Nextgeneration Optical Transport Networks, Akihide
Sano1, Munehiko Nagatani1, Yutaka Miyamoto1;
1
NTT Network Innovation Laboratories, Japan.
This paper describes high speed transmission
technologies for 400 Gb/s and 1Tb/s channel
transport over optical networks. High baud
rate QAM signal generation based on electrical
synthesis and broadband coherent detection
enable simple and cost-effective transponder
implementation.
Conference Room N203
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 69
2015ACP Program.indd 69
11/5/15 3:02 PM
Sunday, 22 November
ACP 2015 — Sunday, 22 November
Conference Room N202
Conference Room N204/205
Conference Room N208
Conference Room N207
Conference Room N211
ASu5A.3 • 17:15
Al0.52In0.48P photodetectors for underwater
communication systems, Jeng Shiuh Cheong1,
Liang Qiao1, Aina N. Baharuddin1, Jo Shien Ng1,
Andrey Krysa1, John P. David1; 1Univ. of Sheffield,
UK. We describe an AlInP avalanche photodiode
with a narrow spectral response at ~480nm, the
peak transmission wavelength in deep water.
The device has a peak responsivity of 30A/W at
a gain of >200.
ASu5B.3 • 17:15
Low-power 20Gb/s Modulator with an Integrated Loop Mirror, Fatemah Soltani1, Michael
Menard 2 , Andrew G. Kirk 1 ; 1 Electrical and
Computer Engineering, McGill Univ., Canada;
2
CoFaMic Research Center, Univ. of Quebec
at Montreal (UQAM), Canada. The large signal
characterization of a loop mirror Mach-Zehnder
interferometer (MZI) is reported. We demonstrate
that this device is capable of 20 Gb/s modulation rate with reduced power requirements in
comparison to a conventional MZI.
ASu5A.4 • 17:30
Wide Spectral Range InP-based Photodetectors
with High Speed, Zheng Liu1, Yongqing Huang1,
Jiarui Fei1, Kai Liu1, Xiaofeng Duan1, Jun Wang1,
Qi Wang1, Xiaomin Ren1, Shiwei Cai1; 1State Key
Laboratory of Information Photonics and Optical Communications, Beijing Univ. of Posts and
Telecommunications, China. A novel InP-based
photodetector (PD) with high speed in 850 to
1550nm spectral range is proposed. Simulation
studies indicate that the bandwidth is 62.5GHz,
61.7GHz, and 60.3GHz respectively at 850nm,
1310nm, and 1550nm wavelength excitations.
ASu5B.4 • 17:30
Demonstration of complexity in nonlinear
delayed oscillators with silicon electro-optic
modulators, Lei Zhang1, Jianfeng Ding1, Lin
Yang1, Yi Peng2, Hujiang Yang2, Jinghua Xiao2;
1
Chinese Acad Sci Inst of Semiconductor, China;
2
School of Science, Beijing Univ. of Posts and Telecommunications, China. We report the complex
dynamics in nonlinear delayed feedback oscillators with silicon Mach-Zehnder and microring
resonator electro-optic modulators. We present
the analytic model and experimentally demonstrate period-doubling bifurcations and chaotic
signal generations in both architectures.
ASu5C.3 • 17:30
Experimental Demonstration of New Modulational Instability Bands in a Dispersion Oscillating Fiber Cavity, François Copie1, Matteo
Conforti1, Alexandre Kudlinski1, Stefano Trillo2,
Arnaud Mussot1; 1Université Lille 1 Laboratoire
PhLAM, France; 2Università di Ferrara, Italy. We
experimentally study modulational instability in a
dispersion oscillating passive fiber ring cavity. This
dispersion profile leads to new high-frequency
gain bands that can be used for the generation
of ultra-high repetition rate pulse trains.
ASu5D.4 • 17:30
A Novel MIMO DSP based on Matrix Transformation for Joint Few-mode/Multi-core Optical Transmission System, Bo Liu1, Lijia Zhang1,
Xiangjun Xin1; 1Beijing Univ of Posts & Telecom,
China. This paper proposes and demonstrates a
novel MIMO equalization DSP to suppress the
crosstalk between different modes and cores in
SDM transmission system. Improved complexity
and OSNR are obtained in the demonstration.
ASu5A.5 • 17:45
Linear polarization detection of Type II InAs/
GaSb superlattice infrared photodetectors,
Junoh Kim1, Sujin Yoon1, Byungsoo Kang1, SangWoo Kang1, Augustine Urbas2, Zahyun Ku2, Sang
Jun Lee1; 1Korea Research Inst. of Standards
an, Korea (the Republic of); 2Air Force Research
Laboratory,, USA. We have studied a 1D subwavelength gold grating (1D-SGG) integrated
type-II superlattice (T2SL) device to demonstrate
the discriminability of 1D-SGG for linear polarization. The device responses were simulated and
measured for normally incident polarized light.
ASu5B.5 • 17:45
High Extinction Ratio and Low Driver ElectroRefrative Phase Modulator with Double
Graphene Layers, Zhaotang Su1, Qingzhong
Deng1, Zexuan Zhang1, Xingjun Wang1, Zhiping
Zhou1; 1Peking Univ., China. A Mach-Zehnder
optical modulator with double graphene layers on
silicon waveguide, utilizing the electro-refraction
effects of the graphene, is demonstrated with
great extinction ratio of 43.6 dB and low dynamic
driver of 0.5414V.
ASu5C.4 • 17:45
Phase Matching in Fiber Optical Parametric
Amplifiers using Randomly Birefringent Fibers,
Shaohao Wang1, Xinchuan Xu1, Ping Kong A.
Wai2; 1Fuzhou Univ., China; 2The Hong Kong
Polytechnic Univ., Hong Kong. A comprehensive
theoretical model to investigate phase matching in FOPAs using randomly birefringent fibers
is developed. Nonlinear effect was shown to
compensate PMD-induced phase mismatch and
generate larger polarization pulling effect in
FOPAs than FRAs.
ASu5D.5 • 17:45
OSNR penalties for non-zero skew in spacedivision multiplexed transmission link with
self-homodyne detection, Ruben S. Luis 1,
Benjamin J. Puttnam1, Yoshinari Awaji1, Naoya
Wada1; 1National Inst Info & Comm Tech (NICT),
Japan. We experimentally investigate the impact
of non-zero signal-PT skew in SDM links using selfhomodyne detection, finding that nanosecond
delays can strongly impact performance with MHz
transmitter linewidths, but aided by shorter carrier
phase recovery block-lengths.
ASu5D.3 • 17:15
A Feasible Adaptive Recursive Least Square
Frequency-Domain Algorithm for Equalization
of Mode-Division Multiplexed Fiber Transmission, Liqun Yang1, Jian Zhao1, Neng Bai3, Guifang
Li1,2; 1 The College of Precision Instruments and
Opto-electronic Engineering, Tianjin Univ., China;
2
CREOL, The College of Optics & Photonics, Univ.
of Central Florida , USA Minor Outlying Islands;
3
Infinera Corporation, USA Minor Outlying Islands. We propose an overlap-save-based adaptive recursive-least-square frequency-domain
equalization (RLS-FDE) for mode-division-multiplexing fiber-link. It has manageable computation
complexity and is robust with laser phase noise.
Its performance was simulated on two-mode
transmission in comparison to LMS-FDE.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 70
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ACP 2015 — Sunday, 22 November
Conference Room N206
ASu5E.3 • 17:15
Re-use of Low Bandwidth Equipment for High
Bit Rate Transmission Using Signal Slicing
Technique, Christoph Wagner1,2, Sandis Spolitis3,
Juan Jose . Vegas Olmos1, Vjačeslavs Bobrovs3,
Idelfonso Tafur Monroy1; 1Department of Photonics Engineering, Technical Univ. of Denmark, Denmark; 2ADVA Optical Networking SE, Germany;
3
Inst. of Telecommunications, Riga Technical
Univ., Latvia. Massive fiber-to-the-home network
deployment requires never ending equipment upgrades operating at higher bandwidth. We show
effective signal slicing technique, which can re-use
low bandwidth opto-electronical components for
optical communications at higher bit rates.
ASu5F.3 • 17:15
Traveling Repairman Problem to Restore Virtual
Networks in All-Optical Networks after a Disaster, Chen Ma1,2, Sedef Savas2, Xinbo Wang2, Jie
Zhang1, Yongli Zhao1, Guanjun Gao1, Biswanath
Mukherjee2; 1Beijing Univ. of Post and Tel., China;
2
Univ. of California, Davis, USA. Transparency of
all-optical networks (AONs) causes more severe
damage from disasters, and overlaid virtual
networks may experience disconnectivity and/or
outages. We investigate repair scheduling considering failure localization limitations of AONs,
hence minimizing their overall effect.
ASu5E.4 • 17:30 Invited
Flexible Modulation for Elastic Optical Networks, Norman Swenson1, Damian A. Morero2;
1
ClariPhy, USA; 2ClariPhy Argentina S.A., Argentina. We present and compare state-of-the-art
programmable modulation and coding techniques that efficiently utilize bandwidth and SNR
on emerging elastic optical networks.
ASu5F.4 • 17:30
Survivable VON Mapping Scheme with Differentiable Maximum Shared Capacity in Elastic
Optical Networks, Xiaoxu Zhu 1, Hui Yang 1,
Yongli Zhao1, Jie Zhang1, Chen Ma1, Guoying
Zhang2, Huixia Ding3; 1Beijing Univ. of Posts and
Telecomm, China; 2China Academy of Telecom.
Research (CATR), China; 3China Electric Power
Research Inst., China. We propose an optimum
shared protection mapping (OSPM) algorithm
with differentiable maximize shared capacity for
network virtualization in elastic optical networks.
OSPM outperforms conventional scheme in terms
of blocking probability and protection efficiency.
Conference Room N203
Conference Room N209
Conference Room N210
ASu5H.3 • 17:15
Remote sensing of pressure inside microfluidic
channels using light scattering in Scotch tape,
KyungDuk Kim1, Hyeonseung Yu1, Joonyoung
Koh2, Jung Hoon Shin2, Wonhee Lee2, YongKeun
Park1; 1Physics Department, Korea Advanced Inst.
of Science and Technology, Korea (the Republic
of); 2Graduate School of Nanoscience and Technology, Korea Advanced Inst. of Science and
Technology, Korea (the Republic of). We propose
a simple but effective optical method exploiting light scattering in optically inhomogeneous
Scotch tape for measuring the hydrostatic pressure inside a microfluidic channel. After a calibration, the resolution below 0.1 kPa is achieved in
a remote sensing scheme.
ASu5G.3 • 17:30 Invited
Benefits and Enabling Technology for Hardware
Virtualization in Optical Networks, Masahiko
Jinno1; 1Kagawa Univ., Japan. We describe the
hardware virtualization in optical networks as an
enabler of truly automated optical path provisioning to accelerate the speed of service based on
transponder and regenerator examples.
ASu5F.5 • 17:45
Energy-Efficient Survivability for Core Networks using Dual-Homing, Sandu Abeywickrama1, Elaine Wong1, Marija Furdek2, Paolo Monti2,
Lena Wosinska2; 1National ICT Australia, Univ. of
Melbourne, Australia; 2ICT School, KTH Royal
Inst. of Technology, Sweden. This paper studies
the energy efficiency of exploiting dual-homing
to provide core network survivability. Simulation
results show reductions in the number of utilized
wavelengths, suggesting significant energy saving
opportunities in the core network.
ASu5I.4 • 17:30
A New Method for Ultra-wide Frequency Response Measurement of Photodetector, Wenhui
Sun1,2, Xin Zhong1, Jianguo Liu2, Wenting Wang2,
Wei Chen2, Haiqing Yuan2, Jinhua Bai2, Lijuan Yu2,
Ninghua Zhu2; 1Science and Technology on Electronic Information Control Laboratory, Southwest
China Research Inst. of Electronic Equipment,
China; 2Inst. of Semiconductors, China. We develop a new triple swept frequency method for
measuring the ultra-wide bandwidth frequency
response of photo-detector. Experiment results
show a good agreement between the measured
results by the new method and the traditional
techniques.
ASu5I.5 • 17:45
Design of Travelling-wave Photodetectors
Impedance-matched over 135-GHz Bandwidth,
Pengfei Xu1, Yujie Chen1, Jie Liu1, Yanfeng Zhang1,
Guoxuan Zhu1, Qingsheng Xiao1, Bingchi Liu1,
Hui Chen1, Siyuan Yu1; 1Sun Yat-sen Univ., China.
Electrical design for an unloaded transmission line
of a travelling-wave photodetector is performed,
enabling the 50-Ω impedance matching in a large
frequency range from 1 to 135 GHz.
Sunday, 22 November
Conference Room N212
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 71
2015ACP Program.indd 71
11/5/15 3:02 PM
ACP 2015 — Monday, 23 November
Conference Room N202
Conference Room N204/205
Conference Room N208
Conference Room N207
Conference Room N211
08:30–17:00 Registration Open, Room N201, HKCEC
08:30–17:00 Industry Exhibition, Room N201, HKCEC
08:30–10:30
AM1A • Polarization & Spatial
Multiplexing Devices
Presider: Jian Wang, Huazhong
University of Science and Technology,
China
08:30–10:30
AM1B • Best Student Paper
Competition (Track 1 and 6)
Presider: Prof Chester Shu, The
Chinese University of Hong Kong,
Hong Kong
Monday, 23 November
AM1A.1 • 08:30 Tutorial
Passive and Active Building Blocks for SpaceDivision-multiplexed Optical Networks, Haoshuo Chen1; 1Alcatel-Lucent Bell Labs, USA. We
introduce currently emerging passive and active
components including space multiplexers, optical
amplifiers, wavelength selective switches and gain
equalizers to enable space division multiplexing.
We compare the strengths and weaknesses of
different space-multiplexer schemes.
AM1B.1 • 08:30
Demonstration of Mode-Division Multiplexing
for On-Chip Source-Synchronous Communications, Christopher Williams1,2, Behnam Banan2,
Glenn Cowan 1 , Odile Liboiron-ladouceur 2 ;
1
Electrical and Computer Engineering, Concordia
Univ., Canada; 2Electrical and Computer Engineering, McGill Univ., Canada. Mode-division
multiplexing is exploited in a Silicon Photonics
based sourcesynchronous link for intrachip communications. Experimental results are presented
with biterrorrate performance of 10-12 on a twomode device for proof of concept.
08:30–10:30
AM1C • Fiber Lasers III
Presider: Kenneth Kin-Yip Wong; Univ.
of Hong Kong, Hong Kong
AM1C.1 • 08:30 Tutorial
Random Fiber Lasers and Applications, YunJiang . Rao1; 1School of Comm & Inform Eng.
UESTC, Univ of Electronic Science & Tech
China, China. Recent advances in research and
applications of random fiber lasers, which are
substantially different with conventional fiber
lasers due to their unique features of modeless
and temperature-insensitivity, are reviewed
systematically.
08:30–10:30
AM1D • Optical Fiber Sensors I
Presider: John Canning; Univ. of
Sydney, Australia
AM1D.1 • 08:30 Invited
Advanced Phase-Shifted Fiber Gratings and
Their Applications to Comb Filter and Fiber
Sensors, Hongpu Li1; 1Faculty of Engineering,
Shizuoka Univ., Japan. Recent developments on
phase-shifted fiber Bragg gratings and phaseshifted long-period fiber gratings have been
reviewed. Based on these two kinds of gratings,
a comb filter and several fiber sensors have been
proposed and experimentally demonstrated.
AM1B.2 • 08:45
Silicon mode (de)multiplexer based on densely
packed waveguide array (DPWA), Kaixuan
Chen1, Sitao Chen2, Shipeng Wang2, Siya Wang1,
Chenzhao Zhang1, Daoxin Dai2, Liu Liu1; 1South
China Normal Univ., China; 2Zhejiang Univ., China.
A five-mode densely packed waveguide array and
(de)multiplexer on Si are demonstrated for mode
division multiplexing. Insertion losses of –0.8dB
and cross-talks of –22dB have been obtained
experimentally for a device with multiplexing and
de-multiplexing structures.
08:30–10:30
AM1E • Systems and Networks
Presider: Georgios Zervas, University
of Bristol, UK
AM1E.1 • 08:30
A Visible Light Communication based Aircraft
Cabin Wireless Network Demo System, Jianhua
Shen1, Jian Chen1; 1Nanjing Univ Posts & Telecommunications, China. Visible Light Communication
(VLC) has been shown great potential for future
indoor communication especially for airplane. This
paper proposes a VLC based aircraft cabin wireless communication demo-system with comprehensive research on its layout and channel model.
AM1E.2 • 08:45
Undersampled Digital PAM Subcarrier Modulation for Optical Camera Communications, Lijun
Song1, Pengfei Luo2, Min Zhang1, Zabih Ghassemlooy2, Dahai Han1, Hoa Le Minh2; 1Beijing Univ
of Posts and Telecomm, China; 2Optical Communications Research Group, NCRLabs, Faculty of
Engineering and Environment, Northumbria Univ.,
UK. We develop an optical camera communication system utilizing the under-sampled digital
PAM subcarrier modulation using two LEDs.
We show that the proposed system can realize
100bps data transmission over a transmission
range up to 50m.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 72
2015ACP Program.indd 72
11/5/15 3:02 PM
ACP 2015 — Monday, 23 November
Conference Room N212
Conference Room N206
Conference Room N203
Conference Room N209
Conference Room N210
08:30–18:00 Registration Open, Room N201, HKCEC
08:30–17:00 Industry Exhibition, Room N201, HKCEC
08:30–10:30
AM1F • PON I
Presider: Yuki Yoshida, Osaka Univ.,
Japan
AM1F.1 • 08:30
25-Gb/s and 40-Gb/s Faster-than-Nyquist PON
Based on Low-Cost 10G-Class Optics, Jiangwei
Man1, Shengmeng Fu1, Wei Chen1, Jianhe Gao1,
Xiang Liu2, Li Zeng1; 1Fixed Network Research
Department, Huawei Technoligies Co. Ltd, China;
2
Futurewei Technologies, Huawei R&D USA, USA.
We propose downstream transmission of 25-Gb/s
and 40-Gb/s Faster-than-Nyquist signals based
on NRZ and PAM4 for high-capacity PON using
low-cost 10G optics, respectively achieving -23.9
dBm and -20 dBm receiver sensitivities after
20-km SSMF.
08:30–10:15
AM1G • Optical Control and
Processing of RF Signals
Presider: Jungwon Kim; Korea
Advanced Inst of Science & Tech,
Korea (the Republic of)
AM1G.1 • 08:30 Invited
Quadratic Optical Phase Modulation for RF
Frequency Down-Conversion, Yifei Li1, Longtao
Xu1, Shilei Jin1; 1285 Old Westport Rd, Univ. of
Massachusetts Dartmouth, USA. In this paper
we examine the mechanism behind intense
quadratic phase modulation of quantum well
phase modulator and determine its feasibility for
efficient frequency down-conversion for coherent
RF/Photonic links.
08:30–10:30
AM1H • Datacenter Networks
Presider: Zuqing Zhu; Univ of Science
and Technology of China, China
AM1H.1 • 08:30 Invited
Energy Efficient Resource Provisioning in Disaggregated Data Centres, Howraa Mohammad
Ali1, Ahmed Lawey1, Taisir E. Elgorashi1, Jaafar
Elmirghani1; 1School of Electronic and Electrical
Eng, Univ. of Leeds, UK. In this paper we discuss
the new paradigm of disaggregated servers
(DS) and present our energy efficient heuristic
for the energy minimization of virtual machine
(VM) placement in data centres implementing
the DS approach.
08:30–10:15
AM1I • Manipulation and Sensors
Presider: Michael Somekh, The Hong
Kong Polytechnic Univ., Hong Kong
AM1I.1 • 08:30 Invited
Switching and Logic Manipulation of Droplets
and Dielectric Nanoparticles in Micro-nanofluidics System, Guanghui Wang 1, Zhoufeng
Ying1, Dongying Zhang1, Wenxiang Jiao1, Aaron
Ho2, Ying Huang3, Xuping Zhang1; 1Nanjing Univ.,
China; 2Chinese Univ. of Hong Kong, Hong Kong;
3
Inst. of Microelectronics, A*STAR , Singapore.
Switching and logic manipulation are very important for large scale integration of lab-on-a-chip
system. In this talk, we demonstration this kind
of manipulation in centrifugal microfluidics and
silicon photonics based nanofluidics system.
AM1J.1 • 08:30 Invited
Temporal Cavity Solitons: From All-optical
Memories to Microresonator Frequency
Combs, Miro J. Erkintalo1, Jae K. Jang1, Karen E.
Webb1, Kathy Luo1, Stuart G. Murdoch1, Stephane
Coen1; 1The Univ. of Auckland, New Zealand.
We review recent experimental and theoretical
work on temporal cavity solitons in macroscopic
fibre cavities and monolithic microresonators.
In addition to reviewing basic characteristics of
cavity solitons, we will discuss their role in optical
memories and microresonator frequency combs.
Monday, 23 November
AM1F.2 • 08:45
Experimental demonstration of 100/40 Gb/s
OFDM-PON with Bi-directional Low-cost Coherent Detection, Yina Huang1, Mingzhi Mao1,
Rujian Lin 1, Caixia Kuang 1, Qianwu Zhang 1,
Yingxiong Song 1, Yingchun Li 1, Jian Chen 1,
Min Wang1; 1Shanghai Univ., China. A 100/40
Gb/s OFDM-PON with bi-directional low cost/
complexity self-coherent homodyne detection is
experimental demonstrated by using centralized
optical comb with 0.1 nm wavelength interval
to provides both the signal-carrier and the local
oscillation light waves.
08:30–10:30
AM1J • Optical Signal Processing I
Presider: Liang Wang; The Hong Kong
Polytechnic Univ., Hong Kong
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 73
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ACP 2015 — Monday, 23 November
Conference Room N202
Conference Room N204/205
Conference Room N208
AM1B.3 • 09:00
30-GHz directly modulation DFB laser with
narrow linewidth, Zhike Zhang1, Jianguo Liu1, Yu
Liu1, Jinjin Guo1, Haiqing Yuan1, Jinhua Bai1, NinGhua Zhu1; 1Inst. of Semiconductors,CAS, China.
we report a 1.3mm 30-GHz directly modulation
distributed feed-back laser with narrow linewidth
of 130kHz and high side-mode suppression ratio
of 52dB. The output power is more than 16mW
at 100mA and the input 1-dB compression point
is showed with different frequencies.
Conference Room N207
Conference Room N211
AM1D.2 • 09:00 Invited
Fibers for System-on-Fiber Applications, Kevin
P. Chen1, Ming-Jun Li2, Sheng Huang1; 1Univ. of
Pittsburgh , USA; 2Corning Inc., USA. This paper
reports ultrafast laser direct writing of optical
components in multi-core rectangular shape
fibers for sensing and fiber laser applications.
We will discuss efforts to turn optical fibers from
one-dimensional devices to three-dimensional
devices.
AM1E.3 • 09:00
Long Reach RFID-over-Fiber Distribution and
Collection Network, Peter Madsen1, Lau Suhr1,
Sebastian Rodriguez1, Juan Jose . Vegas Olmos1, Idelfonso Tafur Monroy1; 1Technical Univ.
of Denmark, Denmark. This paper presents an
RFID-over-Fiber wireless track and trace system
using active RFID tags. This paper demonstrates
a system, operating over distances up to 30km
of optical fiber and 50m of wireless readability.
Monday, 23 November
AM1B.4 • 09:15
Sub-5V Germanium Waveguide Avalanche
Photodiode based 25 Gb/s 1310 nm Optical Receiver, Hongtao CHEN1, Jochem Verbist1, Peter
Verheyen2, Peter De Heyn2, Guy Lepage2, Jeroen
De Coster2, Philippe Absil2, Bart Moeneclaey1,
Xin Yin1, Johan Bauwelinck1, Joris Van Campenhout2, Gunther Roelkens1; 1Ghent Univ., Belgium;
2
IMEC, Belgium. We demonstrate low-voltage
waveguide-coupled germanium avalanche
photodetectors (APDs) with a gain×bandwidth
product of 140 GHz at -5 V. An optical receiver
based on such an APD operating up to 25 Gb/s
is demonstrated.
AM1A.2 • 09:30
A Novel Full Polarisation Controller Integrated
Monolithically with a Semiconductor Laser,
Muhammad Azhar Naeem1, Kamran Abid1; 1Univ.
of the Punjab, USA. A full polarisation controller
integrated monolithically with a semiconductor
laser is reported. Conversion efficiency from transverse electric to transverse magnetic is obtained
around 50 to 68 %. The device is fabricated on
InP/AlGaInAs MQW hetero-structure.
AM1B.5 • 09:30
Actively Stabilized Silicon Microrings Integrated with Surface-state-absorption Photomonitors at 1310 nm Using a Slope-Detection
Method, Yu Li1, Andrew W. Poon1; 1Hong Kong
Univ of Science & Technology, Hong Kong. We
demonstrate actively stabilized silicon microrings
at 1310nm using a slope-detection method. We
stabilize the microring with a ~3.2dB transmission
fluctuation upon 4.5oC modulations from room
temperature, giving a ~12dB improvement from
unstabilized microrings.
AM1E.4 • 09:15
Pass-band shape monitor for minimizing impact
of signal filtering in cascaded ROADMs, Guoxiu
Huang1, Shoichiro Oda2, Setsuo Yoshida2, Kyosuke Sone1, Goji Nakagawa2, Tomohiro Yamauchi2, Yasuhiko Aoki2, Zhenning Tao3, C. Rasmussen
Jens1; 1Fujitsu Laboratories Ltd., Japan; 2Fujitsu
Limited, Japan; 3Fujitsu R&D Center, Japan. High
speed and low cost optical pass-band shape
monitor with frequency modulated CW light was
proposed for cascaded ROADM networks. We
experimentally confirmed that this method can
achieve high accuracy even with fewer monitor
points.
AM1C.2 • 09:30 Invited
Compact Frequency-modulation Pulsed Singlefrequency Fiber Laser, Shanhui Xu1, Yuanfei
Zhang1, Zhouming Feng1, Changsheng Yang1,
Zhongmin Yang1; 1State Key Laboratory of Luminescent Materials and Devices and Inst. of
Optical Communication Materials, South China
Univ. of Technology, China. A compact frequencymodulation Q-switched single-frequency fiber
laser has been demonstrated at 1.0 μm utilizing a
piezoelectric transducer. Hundreds-of-megahertz
frequency-tuning range is achieved and the highest peak power of the pulse reaches almost 7.0 W.
AM1D.3 • 09:30
A Highly Sensitive Sensor Based on a Novel
Helical Long Period Fiber Grating Written in
the Rotated Fiber by CO2 laser, Liang Zhang1,2,
Yunhe Zhao 1, Yunqi . Liu 1, Tingyun Wang 1;
1
Shanghai Univ., China; 2Nanjing Xiaozhuang
Univ., China. A new type helical long-period fiber
grating (HLPFG) was fabricated and its sensing
characteristics were investigated experimentally.
Compared with conventional long-period gratings with the same period, the HLPFGs had much
higher torsion and strain sensitivity.
AM1E.5 • 09:30
Polarization Rotation Tolerant PDM-VLC by
Asymmetric MIMO system, Sung-Jin Kim1, DoHoon Kwon1, Se-Hoon Yang1, Sang-Kook Han1;
1
Yonsei Univ., Korea (the Republic of). We propose
and experimentally demonstrate asymmetric
MIMO system for PDM based VLC system to
overcome performance degradation due to vulnerability of polarization to rotation and expand
PDM to rotation-tolerant VLC system.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 74
2015ACP Program.indd 74
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,
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m
m
ACP 2015 — Monday, 23 November
Conference Room N212
Conference Room N206
Conference Room N203
Conference Room N209
Conference Room N210
AM1F.3 • 09:00
A Symbol Synchronization Method Based
on Gold Sequences for Real-time Upstream
OFDMA-PON, Han Dun1, Bingyao Cao1, Chen
Qian1, Yingchun Li1, Zhen Zhang1, Qianwu Zhang1;
1
Shanghai Univ., China. A symbol synchronization
method based on single carrier modulated Gold
sequences for upstream OFDMA-PON is demonstrated which shows that precise synchronization
can be realized and hardware logic resources
requirements can be effectively released.
AM1G.2 • 09:00
All-Optical Single-Wavelength Photonic Microwave Quadrature Filter, Yuan Cao1, Erwin Chan2,
Xudong Wang1, Xinhuan Feng1, Bai-Ou Guan1;
1
Jinan Univ., China; 2School of Engineering and
Information Technology, Charles Darwin Univ.,
Australia. A photonic microwave quadrature filter
based on splitting a single-wavelength optical
signal into two with the desired optical phases,
is presented. Results demonstrate a wideband
quadrature filter with very small phase ripples
of < ±0.15°.
AM1H.2 • 09:00 Invited
Virtual Slices Allocation in Multi-tenant Data
Centre Architectures Based on Optical technologies and SDN, Salvatore Spadaro1, Albert
Pagès1, Jordi Perelló1, Fernando Agraz1; 1Universitat Politècnica de Catalunya BarcelonaTech
(UPC), Spain. A Software Defined Networking
(SDN)-based architecture, employing optical
technologies for multi-tenant data centers (DCs),
is firstly discussed. Then, an efficient orchestration algorithm for Virtual Data Centers (VDCs)
allocation is presented, highlighting the benefits that come from the usage of hybrid optical
technologies.
AM1I.2 • 09:00
Capillary-Optic Interferometric Sensor for
Measuring the Refractive Index of Liquid, Qi
Wei Xu1, Wen Jing Tian1, Zhi Hong You2, Jinghua
Xiao1,3; 1School of Science, Beijing Univ. of Posts
and Telecommunications, China; 2Department of
Physics, Beijing Normal Univ., China; 3State Key
Laboratory of Information Photonics and Optical
Communications, Beijing Univ. of Posts and Telecommunications, China. We develop a method
that use capillary as a sensor to measure refractive
indices of different liquids. This sensor is based
on multibeam interference, thus, the sensor has
a high sensitivity and can detect a tiny change in
indices and also measure it precisely.
AM1J.2 • 09:00 Invited
Silica Integrated Optics as a Platform for Quantum Information Processing, Peter G. Smith1;
1
Optoelectronics Research Centre, Univ. of Southampton, UK. Silica provides a low-loss platform for
integrated optics. With demonstrations including
teleportation and Boson sampling it is important
for developing Quantum Information Processing.
We report the design, fabrication, testing and
realization of complex waveguide circuits.
AM1F.4 • 09:15
Mitigation of Timing Offset Effect in OFDMAPON-Uplink, Sun-Young Jung1, Sang-Min Jung1,
Hyoung-Joon Park1, Sang-Kook Han1; 1Yonsei
Univ., Korea (the Republic of). Timing offset effect generated in OFDMA-PON-uplink due to
path difference between ONUs is experimentally
analyzed, and performance improvement by mitigating offset effect in asynchronous reception is
also experimentally demonstrated based on CP
extension and FBMC.
AM1G.3 • 09:15
The First Experiment to Transmit RF Data in
OAM Mode with Optical-assisted Circular Antenna Arra, Mutong Xie1, Mingyang Zhao1, Xinlu
Gao1, Shanguo Huang1, Zizheng Cao2, Jinghua
Xiao1, Wanyi Gu1; 1Beijing Univ. of Posts and
Telecommunications, China; 2Eindhoven Univ. of
Technology, Netherlands. We conducted the first
experiment to transmit an RF IQ signal in OAM
mode by OCAA, to prove that OAM modes coexists with IQ modulation and could be measured.
Directionality and transmission quality is assessed.
AM1F.5 • 09:30
20-Gb/s, 20-km WDM-PON Upstream Transmission using 4-PAM Modulated Free-Running
1550 nm VCSEL and Adaptive SC-FDE, Hongguang Zhang1, Xiaofei Cheng1, Zhaowei Xu1;
1
Inst. for Infocomm Research, Agency for Science, Technology and Research, Singapore. We
propose a novel 20Gb/s WDM-PON upstream
transmission scheme using 4-PAM modulated
free-running 1550nm VCSEL and adaptive SingleCarrier Frequency-Domain Equalization (SC-FDE).
A transmission distance of 20km is achieved in
direct detection system.
AM1G.4 • 09:30
Experimental Demonstration of Radio Frequency Orbital Angular Momentum Multiplexed
Communication System Using Microwave
Photonic Demultiplexer, Mingliang He1, Bingchi
Liu1, Jie Liu1, Ziyang Hu2, Yiling Chen3, Weite
Zhang3, Shilie Zheng3, Xianmin Zhang3, Siyuan
Yu1; 1Sun Yat-Sen Univ., China; 2Univ. of Bristol, UK;
3
Zhejiang Univ., China. A two-channel RF OAM
multiplexed communication system using microwave photonic demultiplexer is experimentally
demonstrated. Both of the two OAM-multiplexed
OFDM-QPSK signals have been successfully
recovered in the experiment.
AM1I.3 • 09:15
Phase-sensitive optical time-domain reflectometry with I/Q demodulation, Li Zhang1, Zinan
Wang1, Song Wang1, Naitian Xue1, Xianyang
Qian1, Mengqiu Fan1, Yi Li1, Yun-Jiang . Rao1;
1
Univ. Electronic Sci. & Tech. of China, China. We
propose a new phase demodulation scheme for
phase-sensitive Optical Time-Domain Reflectometry (Φ-OTDR). The technique is based on I/Q demodulation and homodyne detection using a 90°
optical hybrid. Both the theoretical analysis and
the experimental demonstration are presented.
AM1I.4 • 09:30
Optical Diffraction Tomography for Simultaneous 3D Visualization and Tracking of Optically
Trapped Particles, Kyoohyun Kim1, Jonghee
Yoon 1, YongKeun Park 1; 1KAIST, Korea (the
Republic of). We propose and experimentally
demonstrate 3-D tracking of optically trapped
particles using optical diffraction tomography,
which can perform 3-D position tracking and
visualizing refractive index (RI) distribution of
samples at the same time.
AM1J.3 • 09:30 Invited
Evolutionary Photonics: from black-body ``lasers’’ to neuromorphic metamaterials, Andrea
Fratalocchi1; 1King Abdullah Univ of Sci & Technology, Saudi Arabia. Evolutionary photonics takes
inspiration from complex natural systems and
realizes advanced optical technologies in material
science, energy harvesting and nanomedicine.
In this invited talk I summarize my latest results
in the field.
Monday, 23 November
AM1H.3 • 09:30
Multi-Stratum Resources Integration based on
Network Function Virtualization in Software
Defined Data Center Optical Interconnect,
Hui Yang1, Xiaoxu Zhu1, Ruijie Zhu1, Yongli Zhao1,
Jie Zhang1, Jianrui Han2, Yi Lin2, Young Lee2;
1
Beijing Univ of Posts & Telecom, China; 2Huawei
Technologies Co., Ltd., China. We present multistratum resources integration architecture based
on network function virtualization with resources
integrated mapping strategy in software defined
elastic data center optical interconnect. The feasibility and efficiency are verified on OpenFlowbased control plane.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 75
2015ACP Program.indd 75
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Monday, 23 November
ACP 2015 — Monday, 23 November
Conference Room N202
Conference Room N204/205
AM1A.3 • 09:45
A Robust and Fast Polarimeter Based on Spatial
Phase Modulation of Liquid Crystal on Silicon
(LCoS), Zhikun Hong1, Lei Zhu1, Songnian Fu1,
Ming Tang1, Perry Ping Shum2, Deming Liu1; 1Hua
Zhong Univ Of Sci&Tech, China; 2School of EEE,,
Nanyang Technological Univ., Singapore. We
experimentally demonstrate a robust and fast
polarimeter based on spatial phase modulation
arising in liquid crystal on silicon (LCoS). Without
any mechanical rotation, accurate characterization
of various state of polarization (SOP) is achieved.
AM1B.6 • 09:45
Sampling Rate Independent Resolution Upgrade for All-Optical Analog-to-Digital Conversion, Tomotaka Nagashima1, Makoto Hasegawa1,
Tsuyoshi . Konishi1; 1Osaka Univ., Japan. We
experimentally apply a proposed sampling rate
independent resolution upgrade approach to 10
GS/s 3 bit all-optical ADC system and demonstrate 1 bit resolution upgrade with keeping the
original sampling rate.
AM1A.4 • 10:00
Mode Rotator with Two Cascaded Waveguide
Gratings, Wei Jin1, Kin S. Chiang1; 1City Univ.
of Hong Kong, Hong Kong. We propose and
fabricate a waveguide mode converter based
on cascading a surface-corrugated grating and a
sidewall-corrugated grating. This device allows
the LP01, LP11b, and LP11a modes to convert among
themselves in a cyclic manner.
AM1B.7 • 10:00
Low RF Complexity Photonically Enabled Indoor and Building-to-Building W-Band Wireless
Link, Simon Rommel1, Lucas C. Cavalcante1, Juan
Jose . Vegas Olmos1, Idelfonso Tafur Monroy1;
1
Department of Photonics Engineering, Technical
Univ. of Denmark, Denmark. We demonstrate
W-band wireless transmission over distances
covering both indoor and building-to-building
scenarios with a setup of reduced complexity
in the RF domain, employing a passive wireless transmitter and envelope detection at the
receiver.
AM1A.5 • 10:15
On-chip Generation of Superimposed Optical
Vortices with Tunable Orbital Angular Momentum, Yu Wang1, Xue Feng1, Yidong Huang1;
1
Tsinghua Univ., China. An integrated device for
superimposed optical vortices with tunable orbital
angular momentum (OAM) is demonstrated. With
certain resonant wavelength, the average OAM
per photon is continuously varied from lћ to –lћ
with thermal tuning.
AM1B.8 • 10:15
Master-to-slave dual-mode injection-locked
colorless FPLD pair for MMWoF-OFDM-PON,
Shuo Chang1, Hsiang-Yu Chen1, Yu-Chieh Chi1,
Gong-Ru . Lin1; 1National Taiwan Univ., Taiwan.
Dual-mode injection-locked colorless FPLD pair
for MMWoF-OFDM-PON is demonstrated with
RIN of -103 dBc/Hz to generate optical and 46.4GHz microwave carriers for 24-Gbit/s 64-QAM
OFDM data transmission with receiving power
sensitivity of -8.3 dBm.
Conference Room N208
Conference Room N207
Conference Room N211
AM1D.4 • 09:45
An 8-TDM Inline fiber Fabry-Perot Sensor
Array Based on Ultra-Weak Fiber Bragg Gratings, Peng Jiang1; 1National Univ. of Defense
Technology, China. An inline 8-TDM sensor array
based on ultra-weak FBGs was presented. The
background noise of the sensor array can reach
-100 dB/√Hz at 2 kHz for all the 8 TDM channels.
The multi-reflection induced crosstalk of > 97%
between the sensors can be < -38 dB for 150
measurements.
AM1E.6 • 09:45
Secure key distribution based on variant
properties of chaos synchronization induced
by random phase modulation, Chenpeng
Xue1, Ning Jiang1, Yunxin Lv1, Jing Wang1, Kun
Qiu1; 1UESTC, China. A new scheme for key
distribution based on variant properties of chaos
synchronization in cascaded semiconductor lasers
with phase-modulation feedback. The security
of the scheme relies on the practical difficulty of
completely observing chaotic signals.
AM1C.3 • 10:00
Internal modulation of random fiber laser
with polarization switching, Han Wu1, Zinan
Wang1, Mengqiu Fan1, Yunqi Li2, Li Zhang1, Yi
Li1, Yun-Jiang . Rao1; 1Univ. Electronic Sci. & Tech.
of China, China; 2The Inst. of Optics, Univ. of
Rochester, USA. We experimentally demonstrate
the polarization-driven internal modulation of the
forward-pumped random fiber laser. By inserting
the polarization switch (PSW) in the loop mirror,
the lasing output can be modulated as the pulsed
signal with high extinction ratio.
AM1D.5 • 10:00
Long Period Grating in Multicore Fiber and Its
Application for Measurement of Temperature
and Strain, Ruoxu Wang1, Li Duan1, Ming Tang1,
Songnian Fu1, Peng Zhang1, Zhenhua Feng1, Li
Borui1, Tong Weijun2, Deming Liu1, Perry Ping
Shum3; 1School of Optical and Electronic Information, Next Generation Internet Access National
Engineering Lab (NGIA), China; 2Yangtze Optical
Fibre and Cable Company Ltd(YOFC), China;
3
Nanyang Technological Univ., Photonics Centre
of Excellence, School of Electrical and Electronic
Engineering, Singapore. We experimentally realized long period gratings (LPGs) in multicore
fibers by using commercial fusion splicer with
electric arc discharges method. The resonant
depths offer the capabilities for achieving measurement of temperature and strain.
AM1E.7 • 10:00
Demonstration of 1-to-72 Multicasting (8
Wavelengths × 9 Orbital Angular Momentum
Modes) of DMT QPSK Signal in a Free-space
IM-DD System, Yixiao Zhu1, Kaiheng Zou1, Dan
Wang1, Fan Zhang1; 1Peking Univ., China. We investigate the performance of free-space discrete
multi-tone (DMT) modulation and direct detection
system. 1-to-72 multicasting (8 wavelengths × 9
OAM modes) of 17.875 Gb/s DMT QPSK signal is
demonstrated and the BER of all 72-fold channels
are below 2.4×10-2.
AM1C.4 • 10:15
Cascaded Raman random fiber laser assisted by
Fresnel reflection, Mengqiu Fan1, Han Wu1, Zinan
Wang1, Yi Li1, Yunqi Li2, Li Zhang1, Yun-Jiang .
Rao1; 1Univ. Electronic Sci. & Tech. of China, China;
2
The Inst. of Optics, Univ. of Rochester, USA. We
propose a grating-free, simple-design cascaded
Raman random fiber laser assisted by Fresnel
reflection. The simulation and the experimental
results confirm the effectiveness of weak reflection
on lasing generation, and the linearly output with
48.8% slope efficiency is demonstrated at the 2nd
order Stokes wavelength.
AM1D.6 • 10:15
Fiber Acoustic Sensor Based on PolarizationMaintaining Photonic Crystal Fiber Cascaded
with a Long Period Grating in a Sagnac Loop,
Xin Fu1, Ping Lu1, Jing Chen1, Shun Wang1, Li
Liu1, Hao Liao1, Wenjun Ni1, Deming Liu1, Jiangshan Zhang1; 1Huazhong Univ. of Sci. and Tech.,
China. A fiber acoustic sensor was proposed. A
long period grating is the sensing element with a
plastic membrane as a transducer. In experiment
acoustic signals of 100-4000Hz were measured
and the sensitivity is about 3mV/Pa.
AM1E.8 • 10:15
Demonstration of WDM-PON Architecture
with Reconfigurable Multicasting Functionality,
Yuanxiang Chen1, Juhao Li1, Zhongying Wu1, Peng
Zhou1, Paikun Zhu1, Yu Tian1, Weiwei Huang1,
Yongqi He1, Zhangyuan Chen1; 1Peking Univ., China. A novel multicasting-enable WDM-PON architecture utilizing multiple-pump four-wave-mixing
(FWM) scheme with configurable multicasting
amount and signal is proposed. Downstream
transmission of 10-Gb/s point-to-point signal and
10-Gb/s multicasting signal for 7 optical network
units is successfully demonstrated.
10:30–11:00 Coffee Break around Exhibition Area
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 76
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ACP 2015 — Monday, 23 November
Conference Room N206
Conference Room N203
Conference Room N209
AM1F.6 • 09:45
An Energy Saving Strategy for OFDM-PON
Based on ONU Data Identification, Ziwei Xue1,
Junjie Zhang1, Chen Qian1, Bingyao Cao1, Qianwu
Zhang1; 1Key Laboratory of Specialty Fiber Optics
and Optical Access Networks, Shanghai Univ.,
China. An energy saving strategy for OFDM-PON
is realized by inserting ONU ID symbols in downstream frame to make sure each ONU only process its own data but not all the revived signals.
AM1G.5 • 09:45
Two-bit Photonic Digital-to-Analog Conversion Unit based on Polarization Multiplexing,
Fangzheng Zhang1, Bingdong Gao1, Shilong Pan1;
1
Nanjing Univ Aeronautics & Astronautics, China.
A 2-bit photonic digital-to-analog conversion unit
is proposed and experimentally demonstrated
based on polarization multiplexing. It can be
used to construct higher resolution DACs and
the complexity is expected to be reduced by half.
AM1H.4 • 09:45
Virtual-Pod-Assisted Resource Assignment in
Elastic All-Optical Switching Intra-Datacenter
Networks, Limei Peng1, Gangxiang Shen2; 1Ajou
Univ., Korea (the Republic of); 2Soochow Univ.,
China. We propose efficient resource assignment
schemes based on virtual-pod (V-Pod) and node
migration in elastic all-optical switching intradatacenter networks (intra-DCNs). Simulation
results show that the proposed schemes can
significantly reduce the service request blocking
probability and improve computing and storage
(C/S) resource utilization.
AM1I.5 • 09:45
Optical switch for particle manipulation using
a ring-assisted Mach-Zehnder interferometer,
Wenxiang Jiao 1, Guanghui Wang 1, Xuping
Zhang1, Aaron Ho2, Ying Huang3; 1Nanjing Univ.,
China; 2the Chinese Univ. of Hong Kong, China;
3
Inst. of Microelectronics, A*STAR, Singapore.
Ring-assisted Mach-Zehnder interferometer
(RAMZI) is proposed for particles switching and
manipulation in micro- nanofluidics applications.
Simulations shows that significant modulation can
be achieved by tunning effective index of the ring
up to only ~7×10-4.
AM1F.7 • 10:00
An Effective Sampling Frequency Offset Compensation Method for OFDMA-PON, Yufeng
Cai1, HAN DUN1, Yingchun Li1, Zhen Zhang1,
Chen Qian 1, Bingyao Cao 1, Qianwu Zhang 1;
1
Shanghai Univ., China. A sampling frequency
offset compensation method based on frequency
domain correlation of long training symbols for
OFDMA-PON is experimentally demonstrated
which shows 100ppm of sampling frequency offset compensation capability under ROP of -4dBm.
AM1H.5 • 10:00
Capacity Extension of Software Defined Data
Center Networks With Jellyfish Topology, Victor
Mehmeri1, Juan Jose . Vegas Olmos1, Idelfonso
Tafur Monroy1; 1Technical Univ. of Denmark, Denmark. We present a performance analysis of Jellyfish topology with Software-Defined commodity
switches for Data Center networks. Our results
show up to a 2-fold performance gain when
compared to an equivalent Layer 2 switching
implementation.
AM1I.6 • 10:00
Power-referenced refractometer based on
fiber-to-fiber evanescently coupling between
a tilted fiber Bragg grating and a D-shaped
fiber, Zhongyue Cai1, Liu Fu 1, Tuan Guo1, BaiOu Guan1, Gang-Ding Peng3, Jacques Albert2;
1
Inst. of Photonics Technology, Jinan Univ., China;
2
Department of Electronics, Canada; 3Univ. of
New South Wales, School of Electrical Engineering and Telecommunications, Australia. A novel
tip-reflection and power-referenced refractometry
based on fiber-to-fiber evanescently coupling
between tilted fiber Bragg grating and D-shaped
fiber is proposed and demonstrated to measure
surrounding refractive index (SRI) as low as 1.33.
AM1F.8 • 10:15
An ONUs Requesting based Full-Range Dynamic Bandwidth Allocation for OFDMA-PON
With SLA and CoS, Yafan Liu1, Chen Qian1,
Bingyao Cao1, Junni Zou1, Rujian Lin1, Min Wang1;
1
Shanghai Univ., China. An ONUs requesting
based full-range dynamic bandwidth allocation
for OFDMA-PON with SLA and CoS is proposed
to enhance the QoS of the system with adaptive
cycle time scheme more effectively.
AM1H.6 • 10:15
Experimental Demonstration of Flexible
Content Placement to Provide K-Content Connectivity in SDN-Enabled Data Center Optical
Networks, Xin Li1, Shanguo Huang1, Shan Yin1, Yu
Zhou1, Haibin Huang1, Yongli Zhao1, Jie Zhang1;
1
State Key Laboratory of Information Photonics
and Optical Communication, Beijing Univ. of
Posts and Telecommunications, China. We define
k-content connectivity as the reachability of at
least one content from any point of a Data Center
network against multi-failures. We demonstrate
flexible content placement to provide k-content
connectivity through SDN-enabled OTN and IP
networks between Data Centers.
10:30–11:00 Coffee Break around Exhibition Area
Conference Room N210
AM1J.4 • 10:00
Tunable-Bandwidth Optical Parametric Amplifier Based on Intermodal Four-Wave Mixing
in a Few-Mode Fiber, Rui Guo1, Xiaoqi Zhu1,
Cheng Zhang1, Juhao Li1, Weiwei Hu1, Zhangyuan
Chen1; 1Peking Univ., China. An optical parametric
amplifier based on intermodal four-wave mixing in few-mode fibers is proposed. The results
show that tunable amplification bandwidth from
1GHz to 60GHz can be realized by changing the
wavelength of the pumps.
AM1J.5 • 10:15
Reconfigurable Optical XOR Logic Gate of
Phase-Modulated Signals with Multicast Functionality through FWM in Single SOA, Guo-Wei
Lu1, Gazi Sharif1, Jun Qin2, Hongxiang wang2,
Yuefeng Ji2, Shigeru Yamaguchi 1; 1Tokai Univ.,
Japan; 2Beijing Univ. of Posts and Telecommunications, China. Reconfigurable optical XOR logic
gate of phase-modulated signals with multicast
functionality is proposed and experimentally
demonstrated through FWM in single SOA. Three
of four input signals are flexibly combined to
participate in the XOR operations.
Monday, 23 November
Conference Room N212
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 77
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ACP 2015 — Monday, 23 November
Conference Room N202
11:00–12:30
AM2A • Quantum Dot and Nanowire Devices
and Photodetectors
Presider: Naokatsu Yamamoto; National Inst
Information & Comm Tech, Japan
Conference Room N204/205
11:00–12:30
AM2B • Best Student Award (Track 2 and 5)
Presider: Aaron Ho, The Chinese University of
Hong Kong, Hong Kong
AM2A.1 • 11:00 Invited
Advanced Photonic ICT Devices and Their System Applications Using Quantum-Dot Technology, Naokatsu Yamamoto2,
Kouichi Akahane2, Toshimasa Umezawa2, Atsushi Matsumoto2,
Atsushi Kanno2, Tetsuya Kawanishi2,1, Tomohiro Kita3, Hirohito
Yamada3; 1Waseda Univ., Japan; 2National Inst. of Information and Communications Technology, Japan; 3Tohoku Univ.,
Japan. Quantum-dot nanotechnology is attractive for use in
advanced photonic devices that will augment the available
optical-frequency resources and will increase the number of
wavelength channels usable by wired and wireless networks
in short/middle-range communication systems.
AM2B.1 • 11:00
Surface Plasmon Enhanced Microscopy Using Periodic and
Aperiodic Nanostructures for Super-resolved Cell Imaging, Taehwang Son1, Wonju Lee1, Donghyun Kim1; 1School of
Electrical and Electronic Engineering, Yonsei Univ., Korea (the
Republic of). We investigate surface plasmon enhanced microscopy using periodic nanohole apertures and nanoislands. The
measured resolution was estimated to be on the order of 20
nm on nanoapeture arrays and 135 nm on random nanoislands.
AM2A.2 • 11:30
Single Mode InAs/InP Quantum-dot Microcavity Lasers, JinLong Xiao1, Yue-De Yang1, Shuai Luo1, Hai-Ming Ji1, Tao Yang1,
Yong-Zhen Huang1; 1Inst. of Semiconductors, CAS, China. InAs/
InP quantum dot (QD) microcylinder lasers with an output
waveguide are fabricated. Single-mode lasing wavelength of
1441 nm with side-mode suppression ratio around 24 dB is
achieved from QD excited states emission.
AM2B.3 • 11:30
Enhancing the Molecular Sensitivity of Coherent Raman
Scattering by Doubly-Resonant CARS (DR-CARS), Henning
Hachmeister1, Christian Pilger1, Gerd Wiebusch1, Thomas .
Huser1; 1Biomolecular Photonics, Uni Bielefeld, Germany. The
sensitivity of Raman scattering methods is limited by their
weak scattering cross-section. We show that the application of
doubly-resonant CARS will enhance the molecular sensitivity
enabling the detection of smaller molecular targets.
11:00–12:30
AM2C • Fiber Lasers IV
Presider: Arnaud Mussot; Univ. Lille 1 Laboratoire
PhLAM, France
Conference Room N207
11:00–12:30
AM2D • Optical Fiber Sensors II
Presider: Yun-Jiang Rao; Univ of Electronic
Science & Tech China, China
AM2C.1 • 11:00 Invited
Raman Dissipative Solitons: A New Approach to Generate
High-energy Femtosecond Pulses at New Wavelengths,
Sergey A. Babin1,2; 1Inst. of Automation and Electrometry RAS,
Russian Federation; 2Novosibirsk State Univ., Russian Federation. A review of recent results on generation, optimization
and coherent combining of high-energy Raman dissipative
solitons of different Stokes orders, obtained by synchronous
pumping in PM fiber cavity of normal-dispersion dissipative
soliton laser, is given.
AM2D.1 • 11:00 Invited
Highly Sensitive Optical Fibre Gas Sensors, Wei Jin1; 1Hong
Kong Polytechnic Univ., China. Fibre-based photothermal and
photoacoustic sensors have demonstrated ppb – ppm level
detection limit. The use of optical fibres and near infrared
semiconductor lasers would allow compact and cost-effective
sensors with remote detection capability.
AM2C.2 • 11:30 Invited
Versatile Laser and Optical Amplifier for Ultrafast Imaging
Applications, Kenneth Kin-Yip Wong1; 1Electrical & Electronic
Engineering, The Univ. of Hong Kong, Hong Kong. We report
a versatile MHz broadband swept source in both 1.0-mm and
1.55-mm windows for the newly-emerged ultrafast imaging
modalities. Its performance can further be enhanced by a
broadband sensitive fiber optical parametric amplifier.
AM2D.2 • 11:30 Invited
Microstructured Optical Fiber Devices for Gas Pressure
Measurements, Yiping Wang1, Jian Tang1, Changrui Liao1, Shen
Liu1, Bing Sun1, Zhengyong Li1, Xiaoyong Zhong1; 1College of
Optoelectronic Engineering, Shenzhen Univ., China. We demonstrated five kinds of gas pressure sensors, including a long
period fiber grating written in air-core bandgap fiber, a fiber-tip
air bubble, a polymer-capped Fabry-Perot interferometer, an
inflated long period fiber grating and a twin-core fiber-based
Mach-Zehnder interferometer.
Monday, 23 November
AM2B.2 • 11:15
Ultrafast 2-D microscopic imaging technology, Yuxi Wang1,
Hongwei Chen1, Fangjian Xin1, Minghua Chen1, Sigang Yang1;
1
Tsinghua Univ., China. We here present an ultrafast imaging
system based on the theory of space-spectrum-time mapping of laser pulse. This imaging system is experimentally
demonstrated to be capable to work at a frame rate as high
as 20.9MHz.
Conference Room N208
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 78
2015ACP Program.indd 78
11/5/15 3:02 PM
ACP 2015 — Monday, 23 November
Conference Room N211
11:00–12:30
AM2E • Best Student Paper Award
Competition (Track 3 and 4)
Presider: Calvin C. K. Chan; The Chinese Univ. of
Hong Kong, Hong Kong
AM2E.1 • 11:00
A Full Monitoring Scheme for Long-reach TWDM PONs,
Min Cen1, Jiajia Chen2, Veronique Moeyaert1, Patrice Megret1,
Marc Wuilpart1; 1Université de Mons, Belgium; 2KTH Royal Inst.
of Technology, Sweden. We propose a simple system that
realizes for the first time full monitoring functionality for longreach PON. Theoretical analysis and experimental validation
demonstrate the proposed scheme is capable of providing
accurate fault localization.
Conference Room N212
11:00–12:30
AM2F • PON II
Presider: C W Chow, National Chiao Tung
University, Taiwan
Conference Room N206
11:00–12:15
AM2G • Optically Based Microwave
Generation and Detection
Presider: Yifei Li; Univ. of Massachusetts
Dartmouth, USA
Conference Room N210
11:00–12:30
AM2H • Optical Signal Processing II
Presider: Ping Piu Kuo; Univ. of California, San
Diego, USA
AM2F.1 • 11:00 Invited
High-Speed Direct-Detection WDM PON Using RSOA and
Optical/Electrical Equalization, Hoon Kim1; 1Electrical Engineering, KAIST, Korea (the Republic of). We present high-speed
WDM-PON systems utilizing reflective semiconductor optical
amplifiers and direct detection. We employ the polar RZ format
and optical/electrical equalization techniques to maximize the
performance of the highly band-limited devices.
AM2G.1 • 11:00 Invited
Photonics-based Coherent Multiband Radars, Francesco
Laghezza2, Filippo Scotti2, Daniel Onori1, Paolo Ghelfi2, Antonella Bogoni1; 1TeCIP Inst., Scuola Superiore Sant’Anna of
Pisa, Italy; 2National Laboratory of Photonics Networks, CNIT,
Italy. This paper presents the first multiband photonics-based
radar transceiver, reporting on the first demonstrator of fully
coherent dual band radar able to manage multiple simultaneous coherent radio signals at different frequencies.
AM2H.1 • 11:00 Invited
High-Speed Optical Signal Processing Using Time Lenses,
Michael Galili1, Hao Hu1, Pengyu Guan1, Kasper M. Røge1, Leif
K. Oxenløwe1; 1DTU Fotonik Department of Photonics, Danmarks Tekniske Universitet, Denmark. This paper will discuss
time lenses and their broad range of applications. A number
of recent demonstrations of complex high-speed optical signal
processing using time lenses will be outlined with focus on the
operating principle.
AM2F.2 • 11:30
Energy-efficient Optical Network Units with Simplified FFT
Operation in Direct-detection OFDM PON, Boyu Liu1, Jizong
Peng1, Jiayang Wu1, Qingming Zhu1, Xiaofeng Hu1, Ciyuan
Qiu1, Yikai Su1; 1Shanghai Jiao Tong Univ., China. We propose
and experimentally demonstrate simplified FFT operation to
improve the energy efficiency of ONUs in OFDM PON. Our
proposal can achieve an energy saving of 14.6% compared to
the conventional OFDM PON.
AM2G.2 • 11:30
Narrowing of IF Band Pass Filter Bandwidth in Spurious
Suppressed Opto-Electronic Microwave Oscillator, Takashi
Yamaguchi1, Hiroki Morimoto1, Hiroyuki Toda1; 1Doshisha Univ.,
Japan. We examine the influence of the narrow IF BPF on phase
noise of spurious suppressed opto-electronic microwave oscillators. We found that the phase noise cancellation is effective
only within the bandwidth of the IF BPF.
AM2H.2 • 11:30 Invited
Phase Sensitive Amplifiers Using PPLN Waveguides and
Their Applications, Masaki Asobe1, Takeshi Umeki2, Hirokazu
Takenouchi2; 1Dept. of Electical and Electonic Engineering,
Tokai Univ., Japan; 2NTT Device Technology Labs., Japan.
Phase sensitive amplifiers are attracting a lot of interest because
of their low noise characteristics and phase noise reduction
capability. In this talk, we will review recent advances in PSA
using periodically poled LiNbO3 waveguide.
AM2E.2 • 11:15
Planning for Passive Optical Network Deployment with Kmeans Clustering-based Approach, Hao Chen1, Yongcheng
Li1, Gangxiang Shen1; 1School of Electronic and Information
Engineering, Soochow Univ., China. We propose a K-means
clustering-based approach to plan for the deployment of
greenfield passive optical networks (PON) aiming to minimize
the total deployment cost. Studies show that the proposed
approach is effective to significantly reduce the deployment
cost compared to a benchmark random-cut approach.
Monday, 23 November
AM2E.3 • 11:30
Multi-Domain Fragmentation-Aware RSA Operations
through Cooperative Hierarchical Controllers in SD-EONs,
Xiaoliang Chen1, Cen Chen1, Daoyun Hu1, Shoujiang Ma1,
Zuqing Zhu1; 1Univ of Science and Technology of China,
China. This paper investigates lightpath provisioning with
fragmentation-aware routing and spectrum assignment across
multiple software-defined elastic optical network (SD-EON)
domains, with a hierarchical controller framework. The system
design is implemented and demonstrated in a multi-national
SD-EON control plane testbed.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 79
2015ACP Program.indd 79
11/5/15 3:02 PM
Monday, 23 November
ACP 2015 — Monday, 23 November
Conference Room N202
Conference Room N204/205
Conference Room N208
Conference Room N207
AM2A.3 • 11:45
Fabrication and Characterization of An Ohmic GaAs
Nanowire Photodetector, Junshuai Li1, Bang Li1, Xin Yan1,
Fukuan Sun1, Xia Zhang1, Xiaomin Ren1; 1Beijing Univ. of Posts
and Telecommunications , China. We have fabricated a single
GaAs nanowire photodetector, which has an extremely low
conduction current in dark and shows resistor-like linear conduction behavior under illumination. A highest responsibility
was obtained as 1.58×10-3 A/W.
AM2B.4 • 11:45
Experimental Characterization of Rayleigh Backscattering
in Few-Mode Fiber Using All-Fiber Photonic Lanterns,
Dawei Yu1,2, Songnian Fu1, John v. Weerdenburg2, Zizheng
Cao2, Ming Tang1, Perry Shum3, Deming Liu1, Ian Giles4, Ton
Koonen2, Chigo Okonkwo2; 1National Engineering Laboratory
for Next Generation Internet Access System, School of Optical
and Electronic Information, Huazhong Univ. of Science and
Technology, China; 2COBRA Research Inst., Eindhoven Univ.
of Technology, Netherlands; 3Photonics Centre of Excellence,
Nanyang Technological Univ., Singapore; 4Phoenix Photonics,
UK. We experimentally characterize the characteristics of Rayleigh backscattering arising in few-mode fiber (FMF) using a
mode selective all-fiber photonic lantern whose mode transfer
matrix is measured through an easy implementation of backreflection configuration.
AM2A.4 • 12:00
A Single InP Nanowire Room-Temperature Photodetector,
Xin Yan1, Junshuai Li1, Fukuan Sun1, Yao Wu1, Bang Li1, Xia
Zhang1, Xiaomin Ren1; 1Beijing Univ Posts & Telecommunications, China. A room-temperature photodetector based on a
single zinc-blende InP nanowire is fabricated, which shows a
remarkable photoresponsivity of 0.1 A/W under 532 nm laser
excitation at a low power density of 150 μW cm-2.
AM2B.5 • 12:00
Six Mode Erbium-doped Fiber Amplifier Using Mode Selective Photonic Lantern, Gisela López-Galmiche1,2, Zeinab
Sanjabi Eznaveh2, Luis A. Herrera Piad2,3, Amado M. VelazquezBenitez2, Jorge Rodriguez-Asomoza4, Enrique Antonio-Lopez2,
Jose J. Sanchez-Mondragon1, Cedric Gonnet5, Pierre Sillard5,
Guifang Li2, Axel Schülzgen 2, Chigo Okonkwo 6, Rodrigo
Amezcua-Correa2; 1Inst Nat Astrofisica Optica Electronica,
Mexico; 2CREOL, Univ. of Central Florida, USA; 3DICIS, Universidad de Guanajuato, Mexico; 4Universidad de las Americas,
Mexico; 5Prysmian Group, France; 6COBRA Research Inst.,
Netherlands. We demonstrate a six-mode erbium doped fiber
amplifier incorporating a photonic lantern for modal gain control. Signal gains >20 dB and differential modal gain <3 dB were
obtained through mode selective pumping using LP21 mode.
AM2C.3 • 12:00
Yb3+-doped Ultra-Short Pulse Fibre Laser with QPM based
Nonlinearity Compensation, Qianwu Zhang1, Chen Qian1,
Bingyao Cao1, Xianglong Zeng1, Yingxiong Song1, Min Wang1;
1
Shanghai Univ., China. An ultra-short pulse fibre laser with
QPM based nonlinearity compensation is proposed. Simulation results demonstrate that nonlinearity impairment caused
by third-order Kerr effect can be effectively compensated with
self-defocusing of cascaded second-order nonlinear in PPLN.
AM2D.3 • 12:00
A Wind Speed Monitoring Method Based on Fiber Bragg
Grating Displacement Sensor, Zhiming Liu1, Zhiguo Zhang1,
Cilin Liu1, Luming li2; 1Beijing Univ. of Posts and Telecomm,
China; 2Information and Communications branch, Jiangxi
Electric Power Company, China. This paper proposes a method
based on FBG displacement sensor for monitoring real-time
wind speed.Compared with standard anemometer,the precision of the method is about 0.5 m/s.
AM2A.5 • 12:15
Quantum efficiency enhanced InGaAs/InP photodetector with polarization insensitive subwavelength gratings,
Yongqing Huang1, Wenjing Fang1, Xiaofeng Duan1, Yehong
Li1, Jiarui Fei1, Kai Liu1, Jun Wang1, Qi Wang1, Shiwei Cai1,
Xiaomin Ren1; 1Beijing Univ Posts & Telecommunications, USA.
A polarization insensitive periodical subwavelength grating and
a photodetector incorporating this grating were proposed and
fabricated. The quantum efficiency of the photodetector was
improved 50% by incorporating an achieved grating with more
than 80% reflectivity.
AM2B.6 • 12:15
Polarization Dependent Hybrid Mode-Locking of ErbiumDoped Fiber Laser with MoS2 Saturable Absorber, Chun-Yen
Lin1, Ting-Hui Chen1, Yung-Hsiang Lin1, Zhengqian Luo2, GongRu . Lin1; 1National Taiwan Univ., Taiwan; 2Xiamen Univ., China.
Hybrid mode-locking of Erbium-doped fiber laser (EDFL) by
incorporating MoS2 saturable absorber and nonlinear polarization rotation is demonstrated. The optimized self-amplitude
modulation effect by detuning the intracavity polarization
shortens the EDFL pulsewidth to 330 fs.
AM2C.4 • 12:15
Thulium-Holmium-codoped, Passively Q-switched Fiber
Laser incorporating Bi2Te3 Saturable Absorber, Junsu Lee1,
Joonhoi Koo1, Ju Han . Lee1; 1Univ. of Seoul, Korea (the Republic
of). We experimentally demonstrate a passively Q-switched
thulium-holmium-codoped fiber laser operating at 1.89 μm
using a bulk-structured Bi2Te3 topological insulator. It is shown
that stable Q-switched pulses with minimum temporal width
of ~1.71 μs can readily be generated.
AM2D.4 • 12:15
Femtosecond Inscription of Long-period and Fiber Bragg
Gratings for Harsh-environment Sensors and High-Power
Lasers Applications, Sergey A. Babin1,2, Alexandr V. Dostovalov1, Alexey Wolf1, Alexandr Parygin1; 1Inst. of Automation
and Electrometry, Russian Federation; 2Novosibirsk State Univ.,
Russian Federation. FBGs inscribed through polyimide coating
by femtosecond laser point-by-point direct writing may serve as
robust laser mirrors and sensors. Proposed slit beam shaping
method for LPGs writing enables creating efficient polarizationmaintaining fiber filters.
12:30–14:00 Lunch Break, On Your Own
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 80
2015ACP Program.indd 80
11/5/15 3:02 PM
ACP 2015 — Monday, 23 November
Conference Room N212
Conference Room N206
AM2E.4 • 11:45
Chaotic WDM-PON with Symmetrical Subcarrier Modulation
Multiplexing, Jing Wang1, Ning Jiang1, Chenpeng Xue1, Kun
Qiu1; 1UESTC, China. A novel passive optical network configuration based on synchronization of WDM chaotic signals and
symmetrical subcarrier modulation multiplexing is introduced.
The proposed scheme can greatly improve the physical layer
security and enhance the communication capacity.
AM2F.3 • 11:45
A low complexity of PAPR reduction scheme in the IM-DD
optical OFDM system based on fast Hartley transform, Lap
Maivan2,1; 1HaiPhong Private Univ., Viet Nam; 2College of Computer Science and Electronic Engineering, Key Laboratory for
Micro-/Nano-Optoelectronic Devices of Ministry of Education,
Hunan Univ., China. We propose and experimentally demonstrate a novel NBPSO on DSI for PAPR reduction in an IM-DD
OOFDM system based on FHT. The experimental results show
that receiver sensitivity can be improved by more than 2dB.
AM2G.3 • 11:45
Influence of Slow Light on Optoelectronic Oscillators based
on Stimulated Brillouin Scattering, Huanfa Peng1, Cheng
Zhang1, Yongchi Xu1, Lixin Zhu1, Weiwei Hu1, Zhangyuan Chen1;
1
Peking Univ., China. 48.9-ns delay via slow light in optoelectronic oscillators based on stimulated Brillouin scattering is
experimentally measured by side-modes shifting in the phase
noise curve. The result demonstrates a potential fine tuning
approach in optoelectronic oscillators.
AM2E.5 • 12:00
A novel wavelength sharing TWDM-PON architecture with
tunable laser and multi-free-spectral-range AWGR, Yuan
Liu1, Hao He1, Kuo Zhang1, Weisheng Hu1; 1Shanghai Jiao Tong
Univ., China. We propose and experimentally demonstrate
a novel TWDM-PON architecture with shared tunable laser
and multi-free-spectral-range AWGR. It supports wavelength
sharing within the same and among different ODNs. 40Gbps
capacity and 40dB power budget are achieved.
AM2F.4 • 12:00
PAPR Reduction and Nonlinear Impairment Mitigation by
Frequency Guard Band-Tone Reservation for DD-OFDM,
Jizong Peng1, Boyu Liu1, Jiayang Wu1, Qingming Zhu1, Ciyuan
Qiu1, Yikai Su1; 1Shanghai Jiao Tong Univ., China. A novel OFDM
PAPR reduction scheme by exploiting frequency guard band
(FGB) is proposed and experimentally demonstrated. Effective
mitigation of nonlinear impairments is validated and BER improvement of 2.6 dB is achieved over 50-km fiber transmission
without sacrificing data rate.
AM2G.4 • 12:00
An analytical model of the injection-locked optoelectronic
oscillator, Zhenghua Zhou1; 1School of Electronic Science and
Engineering, China. We propose a new scheme of an optoelectronic oscillator (OEO) based on injection locking (IL) technique.
The side mode suppression ratio is more than 40dB and the
phase noise at low offset frequencies is reduced.
AM2E.6 • 12:15
RIN Mitigation in Second-Order Pumped Raman Fibre
Laser Based Amplification, Mingming Tan1, Pawel Rosa2, Md
A. Iqbal1, Ian Phillips1, Javier Nuño2, Juan D. Ania-Castanon2,
Paul Harper1; 1Aston Univ., UK; 2Instituto de Óptica, Spain.
We experimentally investigate three Raman fibre laser based
amplification techniques with second-order bidirectional pumping. Relatively intensity noise (RIN) being transferred to the
signal can be significantly suppressed by reducing first-order
reflection near the input end.
AM2F.5 • 12:15
Experimental Demonstration of a Novel PON System Using Multi-dimensional CAP-OFDM Technique, Lu Shi1, Jiale
He1, Lei Deng1, Ming Tang1, Songnian Fu1, Deming Liu1, Perry
Ping Shum2; 1Huazhong Univ. of Sci. & Tech., China; 2Nanyang
Technological Univ., Singapore. We experimentally demonstrate a novel CAP-OFDM-PON system, in which four OFDM
channels of 1.25 Gb/s bitrate per channel are multiplexed using
four-dimensional CAP filters. Both reliability and flexibility of
multiple ONUs’ access have been obtained.
Conference Room N210
AM2H.3 • 12:00
A Wide Pull-in Range OPLL System Using an Optical Voltage
Controlled Oscillator, Ding Ding1, Zhang Yang’an1, Yongqing
Huang1, Limeng Wang1; 1IPOC of BUPT, China. We firstly apply
an easy but powerful frequency pulling module to an SC-OPLL
system and successfully demonstrate a high-dynamic OPLL
operation with a pull-in range as wide as 2.4GHz.
AM2H.4 • 12:15
Self-Oscillating Optical Frequency Comb Generator Based
on an Optoelectronic Oscillator, Xingyuan Xu1, Jian Dai1,
Zhongle Wu1, Yitang Dai1, Feifei Yin1, Yue Zhou1, Jianqiang
Li1, Kun Xu1; 1Beijing Univ. of Posts and Telecomm, China. A
self-oscillating optical frequency comb generator based on
an optoelectronic oscillator was demonstrated. We generated
a nine-line optical frequency comb and a 10GHz microwave
signal with phase noise of -115dBc/Hz at 10 kHz offset.
12:30–14:00 Lunch Break, On Your Own
Monday, 23 November
Conference Room N211
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 81
2015ACP Program.indd 81
11/5/15 3:02 PM
ACP 2015 — Monday, 23 November
Conference Room N202
Conference Room N208
14:00–16:00
AM3A • Devices for Optical
Interconnects
Presider: Dominic Goodwill, Huawei,
Canada
14:00–15:45
AM3B • Fiber Lasers V
Presider: Xinhuan Feng, Jinan
University, China
Conference Room N207
14:00–15:45
AM3C • Novel Fiber Devices II
Presider: Wei Jin; The Hong Kong
Polytechnic Univ., Hong Kong
Conference Room N211
14:00–15:45
AM3D • Long-haul Transmissions II
Presider: Xiang Liu, Futurewei
Technologies, Huawei R&D, USA
Conference Room N212
14:00–15:15
AM3E • DSP for Short-reach
Systems
Presider: Chigo Okonkwo, Eindhoven
University of Technology, Netherlands
AM3B.1 • 14:00 Invited
Operation regimes of normal-dispersion modelocked fiber lasers, Andy Chong1; 1Univ. of
Dayton, USA. The performance of mode-locked
fiber lasers lagged behind solid-state lasers historically. Significant performance improvement
even exceeding the performance of solid-state
counterparts is possible by utilizing unique
nonlinear pulse operations in normal-dispersion
fiber lasers.
AM3C.1 • 14:00 Invited
Advanced FBG Structures Designed and Fabricated for Optical Signal Processing, Xuewen
Shu1; 1Wuhan National Lab for Optoelectron,
Huazhong Univ of Science and Technology, China.
We review our recent research on the design
and fabrication of advanced fiber Bragg grating
structures for optical signal processing. FBG
based processors including optical differentiators,
pulse shapers and modulation format converters
are discussed.
AM3D.1 • 14:00 Invited
A Comparative Analysis of Different Perturbation Models for the Nonlinear Fiber Channel,
Marco Secondini 1, Enrico Forestieri 1; 1TECIP
Inst., Scuola Superiore Sant’Anna, Italy. Different
models for the nonlinear optical fiber channel
are compared in terms of accuracy. The regular
perturbation, enhanced regular perturbation, and
logarithmic perturbation models are considered,
and a new model based on the Magnus series
expansion is introduced.
AM3E.1 • 14:00 Invited
Digital signal processing for short haul optical
data communication systems, Tomoo Takahara1,
Toshiki Tanaka1, Masato Nishihara1, Ryo Okabe1,
Lei Li2, Zhenning Tao2, C. Rasmussen Jens1; 1Fujitsu Limited, Japan; 2Fujitsu R&D Center, China.
Digital Signal processing is going on spreading
from long reach systems to short reach systems.
Especially Discrete Multi-Tone is an attractive
technology for short reach optical transmission
systems. In this paper we review this technology.
AM3A.2 • 14:30 Invited
VCSEL for High Speed Datacom Interconnects,
Norbert Lichtenstein1, Sven Eitel1, Stephanie Saintenoy1, Wolfgang Kaiser1, Michael Moser1; 1II-VI
Laser Enterprise, Switzerland. Energy efficient
VCSEL designs with <0.25 nm RMS line width
and >10 GHz 3 dB modulation response at 2 mA
current suitable for 28 Gbps PAM4 modulation
are presented.
AM3B.2 • 14:30
Widely Wavelength-Tunable and AmplitudeEqualized Rational Harmonic Mode-Locked
Laser Employing a Bismuth-Based Highly
Nonlinear Erbium-Doped Fiber, Yutaka Fukuchi1,
Joji Maeda1; 1Tokyo Univ. of Science, Japan. We
demonstrate a rational harmonic mode-locked
laser using a bismuth-based nonlinear erbiumdoped fiber. The cavity length is 6m. Amplitudeequalized stable short pulses up to 40GHz are
obtained for the wavelength tunable range
covering the CL-band.
AM3C.2 • 14:30 Invited
Annealing and Regeneration in Optical Fibres,
John . Canning1, Wei Liu1, Kevin Cook1; 1Interdisciplinary Photonics Laboratories, Univ. of Sydney,
Australia. Here, we’ll review recent work suggesting that even low temperature annealing of optical fibres exposed to UV light leads to nanoscale
changes in physical dimensions of waveguides.
AM3D.2 • 14:30
15.4 Tb/s C-Band Only Unrepeatered Transmission of Real-Time Processed 200 Gb/s PDM-16
QAM over 355 km, Dominique Mongardien1,
Christian Bastide1, Hans Bissessur1, Sophie Etienne 1; 1Alcatel-Lucent Submarine Networks,
France. We present a record 77 x 200 Gb/s, Cband only unrepeatered transmission experiment
over 355 km, applying a booster at the transmitter
side and a ROPA with third-order Raman pumping
at the receiver end.
AM3E.2 • 14:30
DSP Complexity Growth in MIMO-MDM Systems for Short Reach Networks, Kai Shi1, Benn
C. Thomsen1; 1Department of Electronic & Electrical Engineering, Univ. College London, UK. The
impact of transmission distance and number of
modes on the complexity of several MIMO-DSP
algorithms are compared for fibers in three DMD
regimes and in the presence of discrete perturbation such as MUX/DEMUX and splices.
Monday, 23 November
AM3A.1 • 14:00 Invited
Increasing Capacity of Silicon Photonic MachZehnder Switch Chips for Optical Networks
and Datacenters, Dominic Goodwill1, Patrick
Dumais1, Hamid Mehrvar1, Eric Bernier1; 1Huawei
Technologies Canada, Canada. Silicon photonic
switch fabrics require low-loss and low-crosstalk
scalable topologies, and optimized photonic
components. We analyze the optical performance
of switch matrices constructed of Mach-Zehnder
cells for a DWDM network circuit switch and for
a datacenter packet switch.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 82
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11/5/15 3:02 PM
ACP 2015 — Monday, 23 November
Conference Room N206
14:00–15:45
AM3F • Signal Processing for
Advanced Modulation Formats
Presider: Yi Cai, ZTE Inc, USA
Conference Room N203
14:00–15:30
AM3G • Node Architecture
Presider: Limei Peng; Ajou Univ.,
Korea (the Republic of)
Conference Room N209
14:00–15:45
AM3H • Plasmonics and Sensors
Presider: Guanghui Wang, Nanjing
Univ., China
Conference Room N210
14:00–15:45
AM3I • Optical Signal Recovery
Presider: Tianhua Xu, UCL, UK
NOTES
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AM3F.1 • 14:00 Invited
Hybrid Optical Phase Quantization for All-optical Signal Processing, Takayuki Kurosu1, Hung
Nguyen Tan1, Karen Solis-Trapala1, Shu Namiki1;
1
Natl Inst of Adv Industrial Sci & Tech, Japan.
Recent progress in all-optical signal processing
based on the novel hybrid optical phase squeezer
(HOPS) is presented. After reviewing the principle,
we experimentally demonstrate various configurations of HOPS to phase-regenerate BPSK signal
and QPSK signal.
AM3F.2 • 14:30
A Proposal and Analytical Investigation of Optical Comparison-Operation Scheme for Viterbi
Decoding, Yohei Aikawa1, Hiroyuki Uenohara1;
1
Tokyo Inst. of Technology, Japan. We propose an
optical comparison-operation scheme in Viterbi
decoding for realizing optical FEC technologies.
We analytically obtained net coding gain close
to the conventional scheme with less processing
number of calculation steps for QPSK-modulated
signals.
AM3G.1 • 14:00 Invited
Planning of Optical Networks Based on Programmable ROADMs, Marija Furdek1, Matija
Dzanko2, Nina Skorin-Kapov3, Lena . Wosinska1;
1
School of ICT, KTH Royal Inst. of Technology,
Sweden; 2Faculty of Electrical Engineering and
Computing, Univ. of Zagreb, Croatia; 3Univ. Center of Defense, San Javier Air Force Base, Spain.
Synthetic programmable ROADMs enable great
architectural flexibility and offer remarkable opportunities for network optimization. This paper
summarizes the benefits and network planning
challenges introduced by this technology and
outlines optimization approaches to utilize its
advantages.
AM3H.1 • 14:00 Invited
Massive Orbital Angular Momentum Channels
for High Capacity Optical Communication Using Optical Vortex Gratings, Xiaocong Yuan1;
1
Shenzhen Univ., China. We demonstrate orbital
angular momentum (OAM) based optical interconnect using optical vortex grating. We achieve
160Tbit/s data transmission by 10 individual OAM
channels multiplexing. We also demonstrate highspeed switch and multicast of 49 OAM channels.
AM3G.2 • 14:30
An Elastic Optical Network Node Architecture
Supporting Reconfigurable Superchannel
Multicasting, Paikun Zhu1, Juhao Li1, Yuanxiang
Chen1, Xin Chen1, Zhongying Wu1, Dawei Ge1,
Yu Tian1, Peng Zhou1, Zhangyuan Chen1, Yongqi
He1; 1State Key Laboratory of Advanced Optical
Communication Systems and Networks, Peking
Univ., China. We introduce a switching node architecture for elastic optical network with capability
of polarization-division-multiplexing superchannel
multicasting in spectrum domain. The multicasting performance and reconfigurability of the node
is investigated by experiments.
AM3H.2 • 14:30
Sensitivity-improved plasmonic fiber-optic refractometer based on differential measurement
between cut-off and plasmonic resonances,
Jian Xu 1, Zhang Xuejun 1, Linzi Han1, Xuhui
Qiu1, Liu Fu 1, Tuan Guo1, Bai-Ou Guan1; 1Jinan
universuty, China. Based on differential intensity
measurement between the cut-off and Plasmon
resonances of an Au-coated tilted fiber Bragg
grating, refractometer with RI sensitivity of 920
dB/RIU over the range of 1.332 to 1.357 has
been achieved.
AM3I.1 • 14:00 Invited
Cancellation of Nonlinear Impairments in Fiber
Optic Transmission Systems, Nikola Alic1; 1Univ.
of California, USA. Nonlinear crosstalk has been
main capacity-limiting impairment in fiber optic
transmission for at least 20 years. In this contribution we present successful cancellation of
nonlinear interaction enabling longer reach and
higher capacity systems.
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AM3I.2 • 14:30 Invited
Approaching Complete Cancellation of Nonlinearity in WDM Transmission Through Optical
Phase Conjugation, Karen Solis-Trapala1, Mark
Pelusi 2, Hung Nguyen Tan 1, Takashi Inoue 1,
Satoshi Suda1, Shu Namiki1; 1National Inst. of
Advanced Industrial Science and Technology
(AIST), Japan; 2Univ. of Sydney, Australia. We
review transformative effects of phase conjugation in transmission: the feasibility of complete
nonlinearity cancellation in WDM transmission
via an idealized system design, and the recovery of a DP-64QAM signal in a field-deployed
legacy-fiber link.
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Monday, 23 November
________________________
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 83
2015ACP Program.indd 83
11/5/15 3:02 PM
ACP 2015 — Monday, 23 November
Conference Room N202
Conference Room N208
Conference Room N207
AM3B.3 • 14:45
Spectral Compression of All-normal-dispersion
Mode-locked Fiber Laser, Yi Hua1, Xiaosheng
Xiao1; 1Tsinghua Univ., China. Spectral compression of all-normal-dispersion mode-locked fiber
lasers is investigated numerically and experimentally. The spectral compression ratio could be up
to 10, and picosecond pulses with clean and narrow spectrum is obtained by optimizing the setup.
Monday, 23 November
AM3A.3 • 15:00 Invited
Building a Robust Hybrid III-V-on-Silicon Transceiver, Di Liang1, Geza Kurczveil1, Chong Zhang1,2,
Marco Fiorentino1, John E. Bowers2, Raymond G.
Beausoleil1; 1HP Labs, System Research Lab, USA;
2
Electrical and Computer Engineering, Univ. of
California, USA. We review our recent progress
in hybrid silicon microring lasers and photodetectors for a hybrid transceiver. High-temperature
continuous-wave lasing and high-speed operation in both lasers and photodetectors are
demonstrated.
AM3B.4 • 15:00
Wavelength-Tunable Mode-Locked Erbium Fiber Laser Based on Phase-Shifted Long-Period
Gratings, Jie Wang1,2, A. Ping Zhang1, Yonghang
Shen2, Hwa Yaw Tam1, Ping Kong A. Wai3; 1Department of Electrical Engineering, The Hong Kong
Polytechnic Univ., China; 2Department of Optical
Engineering, Zhejiang Univ., China; 3Department
of Electronic and Information Engineering, The
Hong Kong Polytechnic Univ., China. A wavelength-tunable mode-locked Erbium fiber laser
based on a phase-shifted long-period grating is
presented. Output wavelength is tuned over ~20
nm through heating the grating. The corresponding pulse duration varies from 0.91 to 1.3 ps.
AM3C.3 • 15:00
All Fiber Broadband Mode Multiplexer Based
on Mode Rotator and Tapered Mode Selective
Coupler, Xinglin Zeng1, Yan Li1, Jian Wu1; 1Beijing
Univ of Posts & Telecom, China. All-fiber broadband mode multiplexer based on degenerate
mode rotator and tapered mode selective coupler
is proposed. Six modes can be multiplexed and
get high mode coupling efficiencies in 200nm
wavelength band.
AM3B.5 • 15:15
Stable Nanosecond Chirp-free Pulse Generation with Ultra-narrow Bandwidth from a Passively CW Mode-locked Fiber Laser, Chen Jin1,
Sigang Yang1, Xiaojian Wang1, Minghua Chen1,
Hongwei Chen1, Shizhong Xie1; 1Tsinghua Univ.,
China. A stable nanosecond chirp-free pulse generation with ultra-narrow bandwidth is established
from a passively mode-locked erbium-doped fiber
laser with a homemade fiber Bragg Grating as the
intra-cavity filter and careful intra-cavity dispersion
management introduced.
AM3C.4 • 15:15
Microstructured Optical Fibers for Transmitting Orbital Angular Momentum (OAM) Mode,
Guoxuan Zhu1, Xuyang Wang2, Yujie Chen1, Hui
Chen1, Yanfeng Zhang1, Siyuan Yu1, Cheng Du3,
Wei Li3, Jie Zhang3, Wenyong Luo3, Shiyu Li3; 1Sun
Yat-sen Univ., China; 2Univ. of Bristol, UK; 3Optical
Fiber R&D Department of Fiberhome Telecommunication Technologies Co. Ltd, China. We present
the design of a microstructured fiber for optical
communications with orbital angular momentum
(OAM) modes, which can effectively avoid the
excitation of linearly polarized (LP) modes with its
unique air-core and air-coated structure.
Conference Room N211
Conference Room N212
AM3D.3 • 14:45
Nonlinearity Tolerance of 1.28Tb/s 16QAM Nyquist-WDM Superchannel Transmission, Wanli
Wang1, Yanya Hao1, Yaojun Qiao1; 1Beijing Univ.
of Posts and Telecommunications, China. We fix
the GN model by calculating FWM in 16QAM
systems with varied baud rate per sub-channel
and the nonlinearity is minimized when each
sub-channel is 4 G Baud for 1.28Tb/s transmission
over 1500km SSMF.
AM3E.3 • 14:45
PDM PAM-4 with IM-DD using a simple MIMO
DSP-based receiver for short reach communications, Xian Zhou1,3, Jiahao Huo 1, Kangping
Zhong3, Liang Wang3, Jinhui Yuan3, Haiquan
Cheng3, Keping Long1, Alan Pak Tao Lau2, Chao
Lu 3; 1Univ. of Science & Technology Beijing
(USTB), China; 2Photonics Research Centre, Department of Electric Engineering, The Hong Kong
Polytechnic Univ. , China; 3Photonics Research
Centre, Department of Electric and Information
Engineering, The Hong Kong Polytechnic Univ.,
China. A simple MIMO DSP-based receiver is
proposed for polarization multiplexing IM-DD
system in short reach communication systems.
The performance of the proposed receiver is
demonstrated in a 224Gbit/s PDM-PAM4 10km
IM-DD transmission system.
AM3D.4 • 15:00 Invited
Transoceanic Transmission with Few-mode
Fibers, Fatih Yaman1; 1NEC Laboratories America
Inc., USA. Abstract not available.
AM3E.4 • 15:00
Design and Implementation of Blind Equalization Algorithm for Multiband CAP Modulation
in High Speed and High Spectral Efficiency
Optical Data Link, Fangjian Li1, Min Zhang1,
Danshi Wang1; 1Beijing Univ. of Posts and Telecommunications, China. A 102 Gbit/s short range
optical data link for inter-datacenter interconnect
using MultiCAP and CMA_DDLMS algorithm is
proposed and demonstrated. The results show
that MultiCAP signal in inter-datacenter interconnect system can be transmitted over 40-km SSMF
with BER below FEC threshold of 7%.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 84
2015ACP Program.indd 84
11/5/15 3:02 PM
ACP 2015 — Monday, 23 November
Conference Room N206
Conference Room N203
Conference Room N209
AM3F.3 • 14:45
LDPC-coded BICM-ID with Nonuniform Signaling for Ultra-High-Speed Optical Transport, Tao
Liu1, Ivan B. Djordjevic1; 1Univ. of Arizona, USA. An
LDPC-coded BICM-ID scheme with nonuniform
signaling is proposed, which is designed by mapping a variable-length prefix code onto signal
constellation. We demonstrate that proposed
nonuniform signaling scheme outperforms LDPCcoded 8-QAM by at least 0.8 dB.
AM3G.3 • 14:45
Fair comparison of the contentionless property in OXC, Thierry Zami1, Philippe Jennevé2,
Hans Bissessur3; 1Alcatel-Lucent France, France;
2
Bell Labs France, Alcatel-Lucent, France;
3
Alcatel-Lucent Submarine Network, France. By
comparing 2 distinct wavelength-routing Optical Cross-Connects (OXC), this study highlights
the relevance to consider dynamic traffic when
assessing the contentionless property.
AM3H.3 • 14:45
A Parallel-Moving Prism Based Phase Modulator for Phase-sensitive SPR Biosensor, Li Jiang1;
1
Zhejiang Univ., China. A novel parallel-moving
prism based phase modulator (PM-PPM) is proposed, which offers high sensitivity, high stability
and low-cost. The resolution measured by glycerine solutions is 3.42×10-7 RIU and the detection
limit of anti-Angiogenin is achieved at 2.143 nM.
Conference Room N210
NOTES
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AM3F.4 • 15:00
A Novel Optical Carrier Phase Estimation
Technique Based on Viterbi-Viterbi and QPSK
Partitioning for 16-QAM, Heba Shehata1, Mai
Banawan1, Ziad A. El-Sahn1; 1Alexandria Univ.,
Egypt. We propose a novel carrier phase estimator based on two-stage Viterbi-Viterbi and QPSK
partitioning for 16-QAM. Simulation shows that
the proposed algorithm is highly tolerant to laser
linewidth with a reduced cycle slip probability.
AM3G.4 • 15:00
A Novel OXC Architecture Utilizing Switching
Bridges for Mode Division Multiplexing Optical
Networks, Yumeng Hao1, Juhao Li1, Xin Chen1,
Yongqi He1, Zhangyuan Chen1; 1Peking Univ.,
China. We propose a novel large-scale OXC
architecture that utilizes intra-mode optical crossconnect sub-elements and inter-mode switching
bridges. We show by simulation that the proposed
OXC architecture attains significant hardware
scale reduction and similar blocking performance
to the one-dimensional fully-connected OXC.
AM3H.4 • 15:00
High-sensitivity humidity sensor based on microfiber Sagnac interferometer, Li-Peng Sun1,
Jie Li1, Long Jin1, Yang Ran1, Bai-Ou Guan1; 1Jinan
Univ., China. A relative humidity (RH) sensor based
on a high-birefringence (Hi-Bi) Sagnac interferometer is proposed and demonstrated. By inserting a
Hi-Bi Panda fiber into the Hi-Bi microfiber Sagnac
loop, the sensitivity is enhanced significantly.
AM3I.3 • 15:00 Invited
Optical Injection Locking based Carrier Recovery for Coherent Signal Reception, Zhixin Liu1,
David J. Richardson1, Radan Slavík1; 1Optoelectronics Research Centre (ORC), Univ. of Southampton, UK. We use optical injection locking
for carrier recovery in carrier-assisted coherent
OFDM. A robust narrow-bandwidth locking with
slow phase lock loop is discussed. Simplified
DSP and improved performance with respect to
intradyne detection is demonstrated.
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AM3G.5 • 15:15
Off-Line Contention Management in Colorless
Directionless Reconfigurable Optical Add/
Drop Multiplexer Node, Sina Fazel1,2, Mounia
Lourdiane1, Catherine Lepers1,2; 1Telecom SudParis, Universite Paris-Saclay , France; 2SAMOVAR,
Telecom SudParis,CNRS, Universite Paris-Saclay,
France. In this work, we investigate an autonomous off-line management strategy for colorless
directionless reconfigurable optical Add/Drop
multiplexer node based on assigning bank utilization priority for each direction considering the
number of Add/Drop banks and capacity of each
bank present in the node.
AM3H.5 • 15:15
High-sensitivity microfiber interferometric
hydrogen sensors, Zhipeng Yu1, Long Jin1, Yang
Ran1, Bai-Ou Guan1; 1Jinan Univ., China. We present highly sensitive hydrogen detection by means
of microfiber Mach-Zehnder interferometer. Its
transmission spectrum blue shifts by 0.92 nm
when exposed to hydrogen with a concentration
of 5%, as a result of the strong evanescent field
interaction with the Palladium coating.
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Monday, 23 November
AM3F.5 • 15:15
High-Contrast Recognition of QPSK Coded
Labels by OpticalWaveguide CircuitWith Nonlinear Thresholders, Tadashi Kondo1, Hiroki Kishikawa1, Nobuo Goto1; 1Tokushima Univ., Japan.
Our previously reported passive waveguide circuits recognizing PSK labels limited the number of
recognizable labels due to its low contrast at the
outputs. In this paper, we propose the improved
circuits utilizing optical nonlinear thresholders.
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 85
2015ACP Program.indd 85
11/5/15 3:02 PM
ACP 2015 — Monday, 23 November
Conference Room N202
Conference Room N208
Conference Room N207
Conference Room N211
AM3A.4 • 15:30
Impact of Analog Interface Bandwidth of
Pluggable Analog Coherent Optics on Performance of 100G DP-QPSK System, HyunDo
Jung1, Chun Ju Youn1, Seo-Young Lee1, YoungTak Han1, Joong-Seon Choe1, Won-Seok Han1,
Jong-Hoi Kim1, Yong-Hwan Kwon1; 1ETRI, Korea
(the Republic of). We evaluate the performance
degradations of 100G DP-QPSK signals by lossy
analog interface between DSP and the pluggable
module, controlling ICR bandwidth. Depending
on ICR bandwidth, the performance of 100G
DP-QPSK signals shows ~2.5dB OSNR penalty
(BER:1e-3) at 32GBd.
AM3B.6 • 15:30
Passive Mode-Locking at 1.8 μm Using a HighOrder Microring Resonator in a Figure Eight
Fiber Laser, Kwong Shing Tsang1,2, Li Jin3, Victor
Ho3,2, Jack Cheung2, Alessia Pasquazi4, Ray Man2,
Sai Tak Chu1, Ping Kong A. Wai1; 1Photonics
Research Center and Department of Electronic
and Information Engineeringg, The Hong Kong
Polytechnic Univ., Hong Kong; 2Amonics Limited,
Hong Kong; 3Department of Physics and Materials
Sciences, City Univ. of Hong Kong, Hong Kong;
4
Department of Physics and Astronomy, Univ. of
Sussex, UK. We demonstrated a 1.81 μm modelocked figure eight laser using an integrated 11-th
order microring resonator. Mode-locked train
centered at 1.81 μm with repetition rate of 9.09
MHz is achieved.
AM3C.5 • 15:30
All-optical Intensity Modulation Based on Silicon Core Fiber, Haiyan Zheng1, Na Chen1, Ziwen
Zhao1, Fufei Pang1, Zhenyi Chen1, Tingyun Wang1;
1
Key Laboratory of Specialty Fiber Optics and
Optical Access Networks, Shanghai Univ., China.
An all-optical intensity modulation scheme is proposed by using silicon core fiber Fabry-Pérot (F-P)
cavity. Intensity of 1535nm light is modulated by
976nm laser and the maximum intensity modulation depth achievable is estimated above 10dB.
AM3D.5 • 15:30
Signal Power Asymmetry Optimisation for
Optical Phase Conjugation Using Random
DFB Laser Raman Amplification, Pawel Rosa1,
Son Thai Le2, Giuseppe Rizzelli1, Mingming Tan2,
Juan D. Ania-Castanon1; 1Instituto de Óptica,
Spain; 2AIPT, Aston Univ., UK. We numerically
optimise in-span signal power asymmetry in advanced Raman amplification schemes, reaching
3% over 62 km SMF, and evaluate its impact on
the performance of systems using mid-link OPC
using 7×15 16QAM Nyquist-spaced WDM-PDM.
Conference Room N212
AM3A.5 • 15:45
Restricted Launch Polymer Multimode Waveguides for Board-level Optical Interconnects
with >100 GHz×m Bandwidth and Large Alignment Tolerance, Jian Chen1, Nikos Bamiedakis1,
Peter Vasil’ev1, Richard V. Penty1, Ian H. White1;
1
Univ. of Cambridge, UK. We report enhanced
bandwidth performance of >100 GHz×m over
an offset range of ±10 µm in multimode polymer
waveguides under restricted launch, demonstrating the capability to support on-board data rates
of >100 Gb/s.
16:00–16:30 Coffee Break around Exhibition Area
Monday, 23 November
16:30–18:30 Postdeadline Session, Rooms N202/N203 and N211/N212, HKCEC
19:00–21:00 Banquet and Closing Ceremony, Chancellor Room, HKCEC
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 86
2015ACP Program.indd 86
11/5/15 3:02 PM
ACP 2015 — Monday, 23 November
Conference Room N206
AM3F.6 • 15:30
Dependence of Noise Tolerance on Depth
of Learning in BPSK Label Processing Using
Complex-Valued Neural-Network, Hanayo
Fujimoto 1, Hiroki Kishikawa 1, Nobuo Goto 1,
Shin-ichiro Yanagiya1; 1Tokushima Univ., Japan.
Optical neural-network to process PSK labels for
photonic routing is proposed, which consists of
optical amplifiers, phase shifters and nonlinear
thresholders. Noise tolerance for incident labels is
improved by reducing learning depth for weights.
Conference Room N203
Conference Room N209
Conference Room N210
NOTES
AM3H.6 • 15:30
Surface Plasmon Resonance Sensor Based on
a Polymer Waveguide with a Copper Thin-Film
Overlay, Satyendra K. Mishra1, Bing Zou1, Kin S.
Chiang1; 1City Univ. of Hong Kong, Hong Kong.
We investigate theoretically and experimentally
a refractive-index sensor based on surface plasmon resonance with a copper thin-film overlay
deposited on a polymer waveguide. The sensor
shows a very high sensitivity of about 37 μm/RIU.
AM3I.4 • 15:30
Precisely Experimental Optimization of FWM
based All-Optical Amplitude Reshaping, Heng
Zhou1, Ming-le Liao1, Kun Qiu1, Xing-yu Zhou1;
1
Univ. of Electronic Science and Technology of
China, China. A strong optimization method for
fiber FWM based all-optical amplitude reshaping is experimentally demonstrated. Greatly
enhanced amplitude reshaping performance with
biggest ER improvement ever reported by fiber
FWM process is achieved.
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16:00–16:30 Coffee Break around Exhibition Area
16:30–18:30 Postdeadline Session, Rooms N202/N203 and N211/N212, HKCEC
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Monday, 23 November
19:00–21:00 Banquet and Closing Ceremony, Chancellor Room, HKCEC
________________________
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 87
2015ACP Program.indd 87
11/5/15 3:02 PM
Key to Authors
Key to Authors and Presiders
A
A. I. Selmy, Hossam - ASu1H.4
Abeywickrama, Sandu - ASu5F.5
Abid, Kamran - AM1A.2
Absil, Philippe - AM1B.4
Agraz, Fernando - AM1H.2
Aikawa, Yohei - AM3F.2
Akahane, Kouichi - AM2A.1, ASu5A.1
Alam, Shaif-ul - AS4C.2
Al-Awis, Suhail - ASu2A.75
Albert, Jacques - AM1I.6, ASu4G.3
Ali Houfaneh, Abdoulkader - AS3B.4
Alic, Nikola - AM3I.1
Al-Janabi, Hadi - ASu1C.2
Alleruzzo, Luciano - ASu1I.2
Almuneau, Guilhem - ASu1A.3
Alyshev, Sergey - ASu3C.3
Amezcua-Correa, Rodrigo - AM2B.5
An, gaofeng - ASu2A.110
An, Le - ASu2A.3
An, Qi - ASu2A.82
An, Zesheng - ASu2A.141
Ando, Rina - ASu1E.2, ASu4H.4
Andre, Nuno M.- ASu1E.1
Andrekson, Peter A.- AS3F.4
Ania-Castanon, Juan D.- AM2E.6,
AM3D.5
Anthony, Jessienta - ASu1C.2
Antonio-Lopez, Enrique - AM2B.5
Aoki, Yasuhiko - AM1E.4
Apostolopoulos, Dimitrios - ASu1B.3
Aref, Vahid - AS3D.4
Argyris, Nikolaos - AS4D.4, ASu1B.3
Argyros, Alexander - ASu1C.2, ASu3C
Asobe, Masaki - AM2H.2
Avramopoulos, Hercules - AS4D.4,
ASu1B.3
Awaji, Yoshinari - ASu5D, ASu5D.5
B
Baba, Ken-ichi - AS4H.4
Babin, Sergey A.- AM2C.1, AM2D.4,
AM3B
Baharuddin, Aina N.- ASu5A.3
Bai, Chenglin - ASu2A.72
Bai, Chenglin - ASu2A.14, ASu2A.94
Bai, Jinhua - AM1B.3, ASu5I.4
Bai, Lin - AS4H.7, ASu4F.2
Bai, Min - ASu2A.154
Bai, Neng - ASu5D.3
Bai, Wei - AS4H.5
Bakopoulos, Paraskevas - AS4D.4
Ballato, John - ASu5C.1
Bamiedakis, Nikos - AM3A.5
Banan, Behnam - AM1B.1
Banawan, Mai - AM3F.4, ASu2A.73,
ASu5D.2
Bastide, Christian - AM3D.2
Batshon, Hussam - AS3F.1
Bauwelinck, Johan - AM1B.4
Beausoleil, Raymond G.- AM3A.3
Bellanzon, Camilla - ASu1G.2
Bernier, Eric - AM3A.1, AS4B.3,
AS4G.3
Bi, Lijun - ASu2A.50
Bi, Meihua - AS3E.4, AS4F.3
Bi, Xuemei - ASu2A.119
Bigo, Sébastien - AS3E.2
Bissessur, Hans - AM3D.2, AM3G.3
Bobrovs, Vjačeslavs - ASu5E.3
Boffi, Pierpaolo - AS4H.2
Bogoni, Antonella - AM2G.1
Bolten, Jens - ASu1B.3
Borui, Li - AM1D.5, AS4E.3,
ASu2A.84
Bowers, John E.- AM3A.3
Bres, Camille-Sophie - AS3J.1
Brudieu, Barbara - ASu1A.1
C
Cai, Anliang - ASu4E.1
Cai, Haiwen - ASu3C.4
Cai, Jin-Xing - AS3F.1
Cai, Qing - ASu1H.3
Cai, Shanyong - ASu2A.97
Cai, Shiwei - AM2A.5, ASu3B.2,
ASu5A.4
Cai, Yi - AS3D.1
Cai, Yufeng - AM1F.7
Cai, Zhongyue - AM1I.6
Cai, Zhuo - ASu5E.2
Calvez, Stéphane - ASu1A.3
Canning, John - AM1D, AM3C.2,
ASu4B.2
Cao, Guoliang - AS4F.2
Cao, Bingyao - AM1F.3, AM1F.6,
AM1F.7, AM1F.8, AM2C.3
Cao, Cong - ASu2A.145
Cao, Jianjun - AS3B.1
CAO, Jie - AS3I.2
Cao, Xuemei - ASu2A.127
Cao, Xueteng - ASu2A.141
Cao, Yuan - AM1G.2
Cao, Zhewei - ASu1J.3
Cao, Zizheng - AM1G.3, AM2B.4
Carapellese, Nicola - ASu1G.2
Castoldi, Piero - AS3G.2, ASu1G.3
Cavalcante, Lucas C.- AM1B.7
Cavaliere, Fabio - AS3G.2
Cen, Min - AM2E.1
Chaibi, Mohamed Essghair - AS3E.3
Chaisakul, Papichaya - ASu5B.1
Chan, Calvin C. K. - AM2E, ASu1G,
ASu2A.108, ASu2A.84
Chan, Erwin - AM1G.2
Chan, Sze-Chun - ASu5I.2
Chan, Vincent W.- AS4G.1
Chand, Naresh - ASu3E.4
Chandra, Somnath - AS3F.2
Chang, Han-Qing - AS3C.3
Chang, Qingjiang - AS3H.3, ASu3E.2
Chang, Shuo - AM1B.8
Chen, Bowen - ASu2A.102, ASu3H.3,
ASu4E.2
Chen, Cen - AM2E.3
Chen, Chi - ASu2A.81
Chen, Dalei - ASu2A.124, ASu2A.130
Chen, Dijun - ASu3C.4
Chen, Dongxu - ASu2A.20, ASu2A.21
Chen, Duo - ASu2A.123, ASu2A.128
Chen, Guanyu - AS3J.4, ASu5A.2
Chen, Hao - AM2E.2
Chen, Haoran - ASu4F.3
Chen, Haoshuo - AM1A.1
CHEN, Hongtao - AM1B.4
Chen, Hongwei - AM2B.2, AM3B.5,
ASu2A.3, ASu3C.2
Chen, Hsiang-Yu - AM1B.8
Chen, Hsin-Feng - ASu2A.15
Chen, Hui - AM3C.4, AS3A.4,
ASu1B.2, ASu2A.27, ASu5I.5
Chen, Jiageng - AS4I.3
Chen, Jiajia - AM2E.1, AS3H,
ASu2A.75, ASu3G.1
Chen, Jian - AM1E.1, AM1F.2,
AM3A.5
Chen, Jianping - ASu5C.2
Chen, Jing - AM1D.6
Chen, Kaixin - ASu2A.51, ASu3A.3
Chen, Kaixuan - AM1B.2
Chen, Ke - ASu1H.2
Chen, Kevin P.- AM1D.2
Chen, Lawrence R.- AS3B.4
Chen, Lei - ASu2A.139, ASu2A.141
Chen, Lian-Kuan - ASu1F.3, ASu3H.1
Chen, Lin - ASu2A.29
Chen, Minghua - AM2B.2, AM3B.5,
ASu2A.3, ASu3C.2
Chen, Na - AM3C.5
Chen, Pengyu - AS4F.8
Chen, Qian - ASu2A.118
Chen, Qianqiao - ASu5G.2
Chen, Qiaoshan - AS3B.3, AS4A.4,
AS4A.5
Chen, Qingtao - ASu2A.1, ASu2A.11
Chen, Shi - ASu2A.99
Chen, Sitao - AM1B.2
Chen, Tian - ASu2A.83
Chen, Ting-Hui - AM2B.6
Chen, Wei R.- AM1F.1, ASu1I.1,
ASu1I.2, ASu4G, ASu5I.4
Chen, Xianfeng - AS3B.1
Chen, Xiangfei - ASu2A.130
Chen, Xiao-Hong - ASu2A.142
Chen, Xiaoliang - AM2E.3
Chen, Xin - AM3G.2, AM3G.4
Chen, Xue - AS3E.5, ASu1F.2,
ASu2A.106, ASu2A.81,
ASu2A.96, ASu4F.6
Chen, Yang - ASu2A.22
Chen, Yang-Fan - AS3I.3, ASu1I.5
Chen, Yiling - AM1G.4
Chen, You-Wei - ASu1F.1
Chen, Yuanxiang - AM1E.8, AM3G.2,
AS4F.1
Chen, Yujie - AM3C.4, AS3A.4,
ASu1B.2, ASu2A.27, ASu5I.5
Chen, Zhang - ASu2A.19
Chen, Zhangyuan - AM1E.8, AM1J.4,
AM2G.3, AM3G.2, AM3G.4,
AS3H.2, AS4F.1Chen, Zhenyi AM3C.5, Su2A.46
Chen, Zhidong - ASu2A.127
Cheng, Haiquan - AM3E.3
Cheng, Hanglin - AS3I.2
Cheng, Linghao - ASu5H.2
Cheng, Ning - AS3H.4, ASu3E.1
Cheng, Qixiang - ASu2A.87
Cheng, Xiaofei - AM1F.5
Cheng, Yang - AS3I.2
Cheng, Yuh-Chuan - ASu2A.15
Cheng, Zhenzhou - ASu2A.8,
ASu4A.2, ASu4A.4
Cheng, Zhihui - ASu2A.72
Cheong, Jeng Shiuh - ASu5A.3
Cheung, Jack - AM3B.6
Chi, Yu-Chieh - AM1B.8, ASu2A.125,
ASu2A.79
Chiang, Kin S.- AM1A.4, AM3H.6,
ASu2A.51, ASu3A.3
Chinen, Koyu - ASu2A.85
Choe, Joong-Seon - AM3A.4,
ASu2A.25
Choe, Kibaek - AS3I.4
Choi, Byeong Kwon - ASu2A.63
Choi, Chulhee - ASu1I.4
Choi, In Seok - ASu2A.63
Chong, Andy - AM3B.1, ASu1C
Chouchane, Fares - ASu1A.3
Chow, Wai-Kin - ASu4G.2
Chowdhury, Pulak - ASu5F.1
Chrastina, Daniel - ASu5B.1
Chu, Sai Tak - AM3B.6, AS4J,
ASu4A.5
Chuang, Yi-Chen - ASu2A.15
Cimoli, Bruno - ASu2A.89
Cincotti, Gabriella - ASu4H.1
Clark, Matthew - ASu3I, ASu5H.1
Coen, Stephane - AM1J.1
Comatti, Eduoard - ASu4B.2
Conforti, Matteo - ASu5C.3
Contestabile, Giampiero - ASu5I.3
Cook, Kevin - AM3C.2, ASu4B.2
Copie, François - ASu5C.3
Costantino, Costantino - AS4C.2
Cowan, Glenn - AM1B.1
Cugini, Filippo - AS3G.2
Cui, Lin - ASu4F.5
Cui, Xiaoxu - AS3E.5
Cui, Yanxia - ASu1A.4, ASu2A.32
D
Daghighian, Henry - ASu4C.2
Dai, Daoxin - AM1B.2, AS3B.2, AS4A,
ASu1B.1
Dai, Jian - AM2H.4, ASu1J.4
Dai, Yitang - AM2H.4, ASu1J.4,
ASu3J.3
David, John P.- ASu5A.3
Davidson, Carl - AS3F.1
De Coster, Jeroen - AM1B.4
De Heyn, Peter - AM1B.4
Delezoide, Camille - AS3E.2
Delfyett, Peter J.- ASu4D.2
Deng, Haoyu - ASu3B.4
Deng, Lei - AM2F.5
Deng, Ning - ASu3G.2
Deng, Qingzhong - ASu5B.5
Deng, Shupeng - ASu5A.2
Diamantopoulos, Nikolaos P. - AS3E.1
Dianov, Evgeny - ASu3C.3
Ding, Chang-Chun - ASu2A.142
ding, ding - AM2H.3
Ding, Hui - ASu4F.1
Ding, Huixia - ASu4E.4, ASu5F.4
Ding, Jianfeng - AS3B.3, AS4A.5,
ASu2A.33, ASu5B.4
Ding, Mingfei - ASu3I.2
Djordjevic, Ivan B.- AM3F.3, AS3D.3
Doany, Fuad E.- ASu1B.4
Dong, Chen-Yuan - AS3I.3, ASu1I.5
Dong, Jiangli - ASu2A.51
Dong, Jianji - ASu2A.20, ASu2A.21,
ASu2A.23
Dong, Lizhu - ASu2A.136
Dong, Po - AS4B.1
Dong, Yanhua - ASu2A.46
Dong, Yi - ASu3I.3
Dong, Yixian - ASu2A.36
Dong, Yongchao - ASu2A.41
Dong, Zhenhua - ASu3F.2, ASu3F.3
Doran, Nick - AS3H.5
Dostovalov, Alexandr V.- AM2D.4
Dou, Wenhua - ASu2A.128
Dris, Stefanos - AS4D.4
Du, Cheng - AM3C.4
Du, Jing - ASu2A.99
Du, Weijia - ASu3E.3
Du, Xinwei - AS4F.5
Du, Yun - ASu3B.1
Duan, Li - AM1D.5
Duan, Xiaofeng - AM2A.5, ASu2A.1,
ASu2A.11, ASu2A.35, ASu5A.4
Dumais, Patrick - AM3A.1, AS4B.3
Dun, Han - AM1F.3, AM1F.7
Dupuis, Nicolas - ASu1B.4
Dzanko, Matija - AM3G.1
E
Effenberger, Frank - ASu3E.4
Eggleton, Benjamin - ASu4A.3
Eitel, Sven - AM3A.2
El Mehdi, Amhoud - AS4E.2
Elgorashi, Taisir E.- AM1H.1
Elmirghani, Jaafar - AM1H.1
El-Sahn, Ziad A.- AM3F.4, ASu2A.73,
ASu5D.2
Erasme, Didier - AS3E.3
Erkintalo, Miro J.- AM1J.1
Estaran, Jose - AS4D.1, ASu2A.89
Etcheverry, Sebastián - ASu1A.2
Etienne, Sophie - AM3D.2
F
Fan, Mengqiu - AM1C.3, AM1C.4,
AM1I.3, ASu2A.146, ASu2A.150
Fan, Xin Y.- AS4I.3, AS4I.4,
ASu2A.144, ASu2A.145
Fan, Xinye - ASu2A.14
Fan, Zeming - ASu1B.2
Fan, Zheyu - ASu2A.108
Fang, Gaosheng - ASu2A.148,
ASu2A.149
Fang, Tao - ASu2A.124
Fang, Wenjing - AM2A.5, ASu3A.2
Fathpour, Sasan - AS4B.2
Fattah, Ali - ASu2A.75
Fazel, Sina - AM3G.5
Fedoryshyn, Yuriy - ASu1E.3
Fei, Jiarui - AM2A.5, ASu2A.1,
ASu2A.35, ASu5A.4
Feng, Kai-Ming - ASu1F.1
Feng, Xinhuan - AM1G.2
Feng, Xue - AM1A.5, ASu1B.5
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G
Gacoin, Thierry - ASu1A.1
Galili, Michael - AM2H.1
Gan, Lin - AS4E.3
Gao, Bingdong - AM1G.5
Gao, Chunting - ASu2A.50
Gao, Dingshan - ASu2A.23
Gao, Guanjun - ASu2A.106, ASu5F.3
Gao, Hui-ping - ASu2A.112
Gao, Jianhe - AM1F.1
Gao, Mingyi - ASu2A.76, ASu3H.3,
ASu4E.3
Gao, Shuang - ASu2A.84
Gao, Xinlu - AM1G.3
Gao, Xiqing - ASu1F.2
Gao, Zhensen - AS3H.3, ASu3E.2
Gao, Zhiqiang - ASu2A.118
Gardes, Frederic - ASu3A.1
Gauthier-Lafaye, Olivier - ASu1A.3
Ge, Dawei - AM3G.2
Ge, Mu - ASu2A.24
Geng, Dongyu - AS4B.3, AS4G.3
Geng, Yong - AS4C.5, ASu2A.121,
ASu2A.31, ASu2A.5
Ghassemlooy, Zabih - AM1E.2
Ghazy, Abdallah shawky - ASu1H.4
Ghelfi, Paolo - AM2G.1
Ghosh, Indradeep - ASu3H.2
Giacoumidis, Elias - AS3H.5
Gibson, Ursula - ASu5C.1
Giesecke, Anna Lena - ASu1B.3
Giles, Ian - AM2B.4
Godbole, Abhishek - ASu2A.28
Gong, Ningxi - ASu3J.3
Gong, Ruixue - ASu4F.1
Gong, Xiaoxue - ASu1G.4
Gonnet, Cedric - AM2B.5
Goodwill, Dominic - AM3A.1, AS4B.3
Goroshko, Kseniia - ASu3F.5
Gosselin, Stéphane - ASu1G.2
Goto, Nobuo - AM3F.5, AM3F.6,
ASu1E.2, ASu4H.4
Gotz, George - ASu1B.3
Griesser, Helmut - ASu2A.87
Grillot, Frederic - AS3E.3
Gu, Guohua - ASu2A.118
Gu, Huaxi - ASu1H.2
Gu, Rentao - AS4H.7, ASu2A.96,
ASu4F.2
Gu, Wanyi - AM1G.3, ASu1H.1,
ASu2A.97, ASu3J.4, ASu4F.5
Gu, Xin - ASu3B.2
Guan, Bai-Ou - AM1G.2, AM1I.6,
AM3H.2, AM3H.4, AM3H.5,
ASu3I.2, ASu4G.3, ASu5H.2
Guan, Pengyu - AM2H.1
Guangyao, Yang - AS4I.4
Gui, Tao - ASu3F.2, ASu3F.3
Guillemot, François - ASu1A.1
Guo, Han-Wen - AS3I.3
Guo, Fei - ASu2A.45
Guo, Hongxiang - ASu2A.110
Guo, Jinjin - AM1B.3
Guo, Lei - ASu1G.4, ASu1H.3,
ASu3G.3, ASu3G.4, ASu4F
Guo, Nan - AS4I.6, ASu2A.123,
ASu2A.128, ASu2A.151
Guo, Pengxing - ASu1H.3
Guo, Rui - AM1J.4
Guo, Tuan - AM1I.6, AM3H.2,
ASu4G.3
Guo, Zheng - ASu2A.126
Guo, Zhengxin - ASu4F.1
H
H. Rey, Isabella - ASu4A.3
Habib, M. Farhan - ASu5F.1
Hachmeister, Henning - AM2B.3,
AS3I.1, ASu2A.160
Haffner, Christian - ASu1E.3
Hafner, Christian - ASu1E.3
Han, Dahai - AM1E.2
Han, Jaehoon - ASu5B.2
Han, Jianrui - AM1H.3, AS4H.5,
ASu4F.3
Han, Lihong - ASu2A.16, ASu2A.38,
ASu2A.57
Han, Linzi - AM3H.2
Han, Pengchao - ASu3G.3
Han, Sang-Kook - AM1E.5, AM1F.4
Han, Sang-Pil - ASu2A.52
Han, Won-Seok - AM3A.4, ASu2A.25
Han, Xu - ASu3G.3
Han, Yi - ASu3J.4
Han, Young-Tak - AM3A.4, ASu2A.25
Hansen, Erik - ASu1E.1
Hao, Jian - ASu2A.154
hao, qinfen - ASu1H.2
Hao, Yanya - AM3D.3
Hao, Yumeng - AM3G.4
Hao, Yuying - ASu1A.4, ASu2A.32
harper, paul - AM2E.6
Hasegawa, Makoto - AM1B.6,
ASu4H.1
Hashimoto, Tatsuya - AS4H.4
Hattori, Kuninori - ASu4H.1
Hawkins, Thomas - ASu5C.1
He, haijun - ASu2A.143
He, Hao - AM2E.5, AS3E.4, AS4G.5,
ASu3E.3
He, Jiale - AM2F.5
He, Jian-Jun - ASu2A.22, ASu2A.24,
ASu3B.4, ASu3B.5
He, Mingliang - AM1G.4
He, Sailing - AS3B.2, ASu4H.2
He, Yongqi - AM1E.8, AM3G.2,
AM3G.4, AS3H.2, AS4F.1
He, Zhixiong - ASu2A.69
He, Zilong - ASu1F.2
He, Zu Y.- AS4I.3, AS4I.4, ASu2A.144,
ASu2A.145
Healy, Noel - ASu3A.1, ASu5C.1
Heni, Wolfgang - ASu1E.3
Hennig, Simon - AS3I.1
Heo, Won Do - ASu1I.4
Herrera Piad, Luis A.- AM2B.5
HIMENO, Akira - ASu4H.1
Ho, Aaron - AM1I.1, AM1I.5, AS4I
Ho, Ho-Pui - AM2B
Ho, Victor - AM3B.6
Ho, Yi Heng - AS4I.7
Hode, Tomas - ASu1I.2
Hoessbacher, Claudia - ASu1E.3
Hong, Xuezhi - ASu4H.2
Hong, Yan - ASu2A.90
Hong, Zhikun - AM1A.3
Hossain, Arafat - ASu4B.2
Hou, Baogang - ASu4F.3
Hou, Bowen - ASu2A.62
Hou, Jian - ASu3G.3
Hou, Weigang - ASu1H.3
Hovhannisyan, Vladimir A. - ASu1I.5
Hsieh, Cheng-Hsuan - ASu1A.6
Hsu, Po-Er - ASu2A.15
Hu, Bintao - AS4F.3
Hu, Chengzhi - ASu3C.1
Hu, Daoyun - AM2E.3
Hu, Hao - AM2H.1
Hu, Jie - AS4I.2
Hu, Minglie - ASu2A.13
Hu, Po-Sheng - ASu1I.5
Hu, Tao - AS3H.2
Hu, Weisheng - AM2E.5, AS3E.4,
AS4G.5, ASu3E.3, ASu3I.3
Hu, Weiwei - AM1J.4, AM2G.3
Hu, Xiao - ASu2A.131
Hu, Xiaofeng - AM2F.2, AS3H.3,
ASu3E.2
Hu, Youfang - ASu3A.1
Hu, Youqiang - AS4H.7
Hu, Yuan - ASu2A.100
Hu, Ziyang - AM1G.4
Hua, Yi - AM3B.3
Huang, Bo - ASu2A.60
huang, chao - ASu2A.141
Huang, Dandan - ASu1H.3
Huang, Guoxiu - AM1E.4
Huang, Haibin - AM1H.6
Huang, Hui - AS4I.2, ASu2A.154
Huang, Long - ASu2A.130
Huang, Pingli - ASu2A.24
Huang, Shanguo - AM1G.3, AM1H.6,
ASu1H.1, ASu4F.5
Huang, Shao-ling - ASu2A.112
Huang, Sheng - AM1D.2
Huang, Weiwei - AM1E.8
Huang, Xiaoan - AS3H.3, ASu3E.2
Huang, Yidong - AM1A.5, ASu1B.5
Huang, Yina - AM1F.2
Huang, Ying - AM1I.1, AM1I.5
Huang, Yongqing - AM2A.5, AM2H.3,
ASu2A.1, ASu2A.11, ASu2A.35,
ASu3A.2, ASu3B.2, ASu5A.4
Huang, Yong-Zhen - AM2A.2,
ASu3B.1, ASu3B.3
Huang, Yue-Kai - ASu5D.1
Huang, Yunyun - ASu3I.2
Huang, Zhitong - ASu1H.5
Hübner, Wolfgang - AS3I.1
Huo , Jiahao - AM3E.3
Huser, Thomas - AM2B.3, AS3I.1,
ASu2A.160
Husko, Chad - ASu4A.3
Hussein, Amira - ASu5D.2
Hwang, Jung Min - ASu2A.64
I
Ibsen, Morten - AS3C, AS4C.2
Ikeda, Kazuhiro - AS4A.2
Ikeuchi, Tadashi - ASu3H.2
Iliadis, Nikos - ASu1B.3
Inoue, Takashi - AM3I.2, AS3J.2
Iovanna, Paola - AS3G.2
Ip, Ezra - AS4E, ASu5D.1
Iqbal, Md A.- AM2E.6
Irei, Kotoyo - ASu2A.85
Isella, Giovanni - ASu5B.1
Ishii, Yuya - ASu1D.3, ASu1D.4,
ASu1D.5
Ito, Motoki - ASu1D.5
J
Jacobsen, Gunnar - ASu2A.75
Jamal, Mohanad - ASu1C.2
Jang, Jae K.- AM1J.1
Jaouen, Yves - AS4E.2
Jazayerifar, Mahmoud - AS4J.3
Jee, Raman - AS3F.2
Jennevé, Philippe - AM3G.3, AS3E.2
Jens, C. Rasmussen - AM1E.4,
AM3E.1
Jeon, Min Yong - ASu2A.52,
ASu2A.63, ASu2A.64
Jeong, Yong - ASu1I.3, ASu2A.158
Ji, Hai-Ming - AM2A.2
Ji, Ting - ASu2A.32
Ji, Yongning - AS3E.5
Ji, Yuefeng - AM1J.5, AS4H.7, AS4I.5,
ASu1H.5, ASu1J.1, ASu2A.105,
ASu2A.109, ASu4F.2
Jia, Hao - AS3B.3, AS4A.5
Jia, Xin-Hong - AS3C.3
Jia, Zhigang - ASu2A.32
Jian, Jian - ASu2A.27
Jiang, Li - AM3H.3
Jiang, Lu - ASu2A.50
Jiang, Ning - AM1E.6, AM2E.4
Jiang, Peipei - ASu3C.1
Jiang, Peng - AM1D.4
Jiang, Tianwei - ASu3J.4
Jiang, Wen - AS4F.2
Jiao, Wenxiang - AM1I.1, AM1I.5
JIN, Chao - AS4I.6, ASu2A.151
Jin, Chen - AM3B.5
Jin, Chichao - AS4B.4
Jin, Li - AM3B.6, ASu4A.5
Jin, Long - AM3H.4, AM3H.5,
ASu5H.2
Jin, Shilei - AM1G.1
Jin, Wei - AM1A.4, AM2D.1, AM3C
Jin, Xueying - ASu2A.41
Jin, Yuan - ASu2A.78
Jing, Ruiquan - ASu2A.103
Jinno, Masahiko - ASu5G.3
Jo, YoungJu - ASu2A.158, ASu2A.159
Jones, Max - ASu5C.1
Ju, Chen - ASu2A.81
Jung, HyunDo - AM3A.4, ASu2A.25
Jung, Sang-Min - AM1F.4
Jung, Sun-Young - AM1F.4
K
Kaiser, Wolfgang - AM3A.2
Kalavrouziotis, Dimitrios - ASu1B.3
Kam, Pooi-yuen - AS4F.7
Kanakis, Giannis - ASu1B.3
Kang, Byungsoo - ASu5A.5
Kang, Chao - ASu2A.1, ASu2A.11
Kang, Jiqiang - ASu3I.1, ASu3I.4
Kang, Sang-Woo - ASu5A.5
Kang, Shuai - ASu2A.113,
ASu2A.126, ASu2A.34
Kang, Suk-Jo - ASu2A.159
Kang, Xue - ASu2A.113, ASu2A.126,
ASu2A.34
Kang, Zhe - ASu2A.113, ASu2A.126,
ASu2A.34
Kanno, Atsushi - AM2A.1, ASu5A.1
Karlsson, Magnus - AS3F.4
Kasprzak, Andrzej - AS4H.6
Kataoka, Keito - ASu2A.65
Kawanishi, Tetsuya - AM2A.1,
ASu5A.1
Kawashima, Hitoshi - AS4A.2
Kazansky, Peter - AS4C.2
Ke, Changjian - AS4C.6
Ke, Li - ASu3A.1
Ke, Xizheng - ASu2A.88, ASu2A.92
Khan, Faisal Nadeem - AS4F.6
Khokhar, Ali Z.- ASu3A.1
Kim, Donghyun - AM2B.1, ASu5H
Kim, Duk Jun - ASu2A.25
Kim, Hoon - AM2F.1, AS3E
Kim, Inwoong - ASu3H.2
Kim, Jin Man - ASu1I.4
Kim, Jong-Hoi - AM3A.4, ASu2A.25
Kim, Jungwon - AM1G, ASu3J.2
Kim, Junoh - ASu5A.5
Kim, Kyoohyun - AM1I.4, AS3I.4,
ASu2A.156, ASu2A.159, ASu4G.4
Kim, KyungDuk - ASu5H.3
Kim, Min-hyeok - ASu2A.159
Kim, Namje - ASu2A.52
Kim, Nury - ASu1I.4
Kim, Pilhan - AS3I.4
Kim, Sun Woo - ASu2A.64
Kim, Sung-Jin - AM1E.5
Kinjo, Ichiko - ASu2A.85
Kirk, Andrew G.- ASu5B.3
Kishikawa, Hiroki - AM3F.5, AM3F.6,
ASu1E.2, ASu4H.4
Kita, Tomohiro - AM2A.1
Kitayama, Ken-ichi - AS3E.1, AS3J.3
Klinkowski, Miroslaw - AS4H.3
Key to Authors
Feng, Yajiao - ASu2A.62
Feng, Yiqiao - AS4F.4
Feng, Yuanhua - ASu2A.39
Feng, Zhangxiao - ASu1H.6
Feng, Zhenhua - AM1D.5, ASu2A.44,
ASu2A.84
Feng, Zhouming - AM1C.2
Filsinger, Volker - ASu1E.1
Fiorentino, Marco - AM3A.3
Firstov, Sergei V.- ASu3C.3
Fleming, Simon - ASu1C.2
Floridia, Claudio - ASu2A.133
Fontaine, Chantal - ASu1A.3
Forestieri, Enrico - AM3D.1
Foursa, Dmitri - AS3F.1
Franciscangelis, Carolina - ASu2A.133
Fratalocchi, Andrea - AM1J.3
Fresi, Francesco - ASu1F.4
Frigerio, Jacopo - ASu5B.1
Fruett, Fabiano - ASu2A.133
Fu , Liu - AM1I.6, AM3H.2
Fu, Dongzhi - ASu2A.20, ASu2A.21
Fu, Hongyan - AS4B.3, AS4G.3
Fu, Shengmeng - AM1F.1
Fu, Songnian - AM1A.3, AM1D.5,
AM2B.4, AM2F.5, AS4E.3,
ASu1C.3, ASu2A.44, ASu2A.68,
ASu2A.84
Fu, Xiaodong - ASu3H.3
Fu, Xin - AM1D.6
Fujimoto, Hanayo - AM3F.6
Fujimoto, Takanori - ASu2A.155
Fukuchi, Yutaka - AM3B.2
Fukuda, Mitsuo - ASu1D.3, ASu1D.4,
ASu1D.5
Fukuhara, Masashi - ASu1D.3,
ASu1D.4, ASu1D.5
Furdek, Marija - AM3G.1, ASu5F.2,
ASu5F.5
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Key to Authors
Ko, Young-Ho - ASu2A.25
Kocot, Chris - ASu4C.2
Koh, Joonyoung - ASu5H.3
Kondepu, Koteswararao - ASu1G.3
Kondo, Tadashi - AM3F.5
Kong, Deming - AS3F.3
Kong, Moon Sik - ASu2A.52
Kong, Xiang-Jian - ASu2A.31
Konishi, Tsuyoshi - AM1B.6, ASu4H.1
Koo, Joonhoi - AM2C.4, ASu2A.58
Koonen, Ton - AM2B.4
Kou, Yanbin - ASu1J.1
Krauss, Thomas. - ASu4A.3
Krysa, Andrey - ASu5A.3
Ku, Zahyun - ASu5A.5
Kuang, Caixia - AM1F.2
Kubota, Hirokazu - ASu2A.65,
ASu2A.66, ASu2A.67, ASu2A.77
Kudlinski, Alexandre - ASu5C.3
Kuhlmey, Boris - ASu1C.2
Kuo, Ping Piu - AM2H
Kurczveil, Geza - AM3A.3
Kurosu, Takayuki - AM3F.1
Kwon, Do-Hoon - AM1E.5
Kwon, Yong-Hwan - AM3A.4,
ASu2A.25
L
Laaroussi, Youness - ASu1A.3
Lafleur, Gaël - ASu1A.3
Laghezza, Francesco - AM2G.1
Lai, Koon Chun - AS4I.7
Lam, Samuel Siu Kit - ASu1I.2
Lan, Mingying - ASu2A.97
Lang, Tingting - ASu2A.22, ASu2A.24
Lau, Alan Pak Tao - AM3E.3, AS3F,
AS4F, AS4F.6, ASu3F.2, ASu3F.3
Lau, Kei May - AS3A, AS3A.2
Lauro, Luigi Di - ASu4A.5
Lavdas, Spyros - AS3B.5
Lawey, Ahmed - AM1H.1
Lazarou, Ioannis - ASu1B.3
Le Roux, Xavier - ASu5B.1
LeBris, Arthur - ASu1A.1
Ledentsov, Nikolay - ASu4C.3
Lee, Benjamin G.- ASu1B.4
Lee, Bong Wan - ASu2A.64
Lee, Jaehyun P.- ASu1I.3, ASu2A.158
Lee, Ju Han - AM2C.4, ASu2A.58
Lee, Junsu - AM2C.4
Lee, Kenneth Eng Kian - AS3A.3
Lee, KyeoReh - ASu1I.3, ASu1I.4
Lee, Minjee - ASu1I.4
Lee, Sang Jun - ASu5A.5
Lee, Seo-Young - AM3A.4, ASu2A.25
Lee, Sheng Chyan - AS4I.7
Lee, Sheng-Lin - AS3I.3, ASu1I.5
Lee, Wonhee - ASu5H.3
Lee, Wonju - AM2B.1
Lee, Young - AM1H.3, AS4H.5
Lefrancois, Simon - ASu4A.3
Lei, Sichen - ASu2A.88, ASu2A.92
Leon-laval, Sergio - ASu4B.2
Lepage, Guy - AM1B.4
Lepers, Catherine - AM3G.5
Leung, David M.- AS3C.2
Leuthold, Juerg - ASu1E.3
Li , Xiuhua - ASu1H.2
Li, Bang - AM2A.3, AM2A.4
Li, Borui - ASu2A.68
Li, Bowen - ASu3I.1, ASu3I.4
Li, Chengcheng - AS4F.4
Li, Chenyu - ASu2A.123
Li, Dan - ASu3J.4
Li, Dongsheng - AS4I.2
Li, Fang - ASu2A.148, ASu2A.149
Li, Fangjian - AM3E.4
Li, Feng - ASu2A.126, ASu2A.34,
ASu2A.6
Li, Guangbin - ASu2A.109
Li, Guifang - AM1J, AM2B.5,
ASu1G.1, ASu2A.43, ASu4B.5,
ASu5D.3
Li, Han - AS4H.7, ASu4F.2
Li, Hongpu - AM1D.1
Li, Hui - ASu2A.109
Li, Jianping - AS4D.2
Li, Jianqiang - AM2H.4, ASu1J.4,
ASu2A.119, ASu3J.3
Li, Jiantong - ASu1A.5
Li, Jie - AM3H.4
Li, Jing - ASu2A.69
Li, Juhao - AM1E.8, AM1J.4,
AM3G.2, AM3G.4, AS3H.2,
AS4F.1
Li, Junjie - ASu2A.103
Li, Junshuai - AM2A.3, AM2A.4
Li, Lei - AM3E.1
Li, Lijun - ASu2A.50
Li, Luming - AM2D.3, ASu2A.135,
ASu2A.138
Li, Meng fan - ASu2A.88, ASu2A.92
Li, Ming - AS4B.3, ASu1C.4
Li, Ming-jun - AM1D.2
Li, Nana - ASu2A.141
Li, Qian - AS4C.3, AS4C.4
Li, Qin - AS4H.7, ASu4F.2
Li, Shengping - AS3H.4
Li, Shiyu - AM3C.4
Li, Shuhui - ASu2A.101, ASu2A.99
Li, Shun - ASu2A.144
Li, Song-Sui - ASu5I.2
Li, Tangjun - ASu2A.120
Li, Wei - AM3C.4
Li, Wenzhe - ASu1H.1
Li, Xiang - AS4G.4
Li, Xiangdong - ASu1B.5
Li, Xiaoying - ASu2A.53
Li, Xiaoyun - ASu2A.16
Li, Xiao-Zhou - ASu5I.2
Li, Xin - AM1H.6
Li, Yan - AM3C.3, AS3F.3, AS4F.7,
ASu2A.113
Li, Yanhe - ASu2A.104
LI, Yanwei - ASu2A.104
Li, Yehong - AM2A.5
Li, Yi - AM1C.3, AM1C.4, AM1I.3,
ASu2A.146, ASu2A.150
Li, Yidan - ASu2A.50
Li, Yifei - AM1G.1, AM2G
Li, Yingchun - AM1F.2, AM1F.3,
AM1F.7
Li, Yinghui - ASu2A.82
Li, Yongcheng - AM2E.2, ASu3H.3
Li, Yu - AM1B.5, ASu2A.3
LI, Yukui - AS4F.8
Li, Yunbo - ASu4F.1
Li, Yunqi - AM1C.3, AM1C.4
Li, Yunxiao - AS3A.4
Li, Zhaohui - AS4D.2, ASu1E,
ASu2A.39
Li, Zhengbin - AS3H.2, AS4F.1
Li, Zhengyong - AM2D.2
Liang, Di - AM3A.3
Liang, Qi - ASu2A.141
Liang, Xiaodong - ASu1J.4
Liang, YInchuan - ASu2A.119
Liao, Changrui - AM2D.2
Liao, Hao - AM1D.6
Liao, Mingle - ASu2A.36
Liao, Ming-le - AM3I.4, ASu2A.5
Liao, Ping - AS3E.5, ASu2A.110
Liao, Wenjiao - ASu1H.6
Liao, Xiaolu - ASu3B.5
Liboiron-ladouceur, Odile - AM1B.1,
ASu2A.12
Libsch, Frank R.- ASu1B.4
Lichtenstein, Norbert - AM3A.2
Lim, Christina - ASu3G.4, ASu3J.1,
ASu4H
Lim, Eeleong - AS4C.2
Lin, Bangjiang - AS3H.2
Lin, Chung-Yu - ASu2A.125
Lin, Chun-Yen - AM2B.6
Lin, Gong-Ru - AM1B.8, AM2B.6,
ASu1A.6, ASu2A.125, ASu2A.79,
ASu3J
Lin, Rongping - ASu4E.1
Lin, Rui - ASu2A.84
Lin, Rujian - AM1F.2, AM1F.8
Lin, Yi - AM1H.3, AS4H.5, ASu4F.3
Lin, Yung-Hsiang - AM2B.6, ASu1A.6
Little, Brent E. - ASu4A.5
Liu , Feng - ASu2A.1, ASu2A.11
Liu, Bingchi - AM1G.4, ASu5I.5
Liu, Bo - ASu5D.4
Liu, Bowen - ASu2A.13
Liu, Boyu - AM2F.2, AM2F.4
Liu, Cilin - AM2D.3, ASu2A.135,
ASu2A.138
Liu, Dalin - ASu2A.17, ASu2A.30
Liu, Deming - AM1A.3, AM1D.5,
AM1D.6, AM2B.4, AM2F.5,
AS4C.6, AS4E.3, ASu1C.3,
ASu2A.152, ASu2A.40, ASu2A.44,
ASu2A.68, ASu2A.7, ASu2A.84
Liu, Hanwei - ASu2A.105
Liu, Hao - ASu3B.2
Liu, Jianfei - ASu2A.136
Liu, Jianguo - AM1B.3, ASu5I.4
Liu, Jie - AM1G.4, AS4F.8, ASu5I.5
Liu, Jingliang - ASu2A.122
Liu, Jun - ASu2A.101, ASu2A.111,
ASu2A.98, ASu2A.99
Liu, Kai - AM2A.5, ASu2A.1,
ASu2A.11, ASu2A.35, ASu5A.4
Liu, Ke - AS4C.3
Liu, Lei - ASu5A.2
Liu, Lei-Lei - ASu2A.114
Liu, Li - AM1D.6
Liu, Lin - AS3A.4, ASu1B.2, ASu2A.27
Liu, Ling - AS4F.3
Liu, Linghai - ASu4A.2
Liu, Liu - AM1B.2, AS4B.4, ASu4G.3,
ASu4H.2
Liu, Qing W.- AS4I.3, AS4I.4,
ASu2A.144, ASu2A.145
Liu, Shen - AM2D.2
Liu, Shenghao - ASu3A.1
Liu, Shuai - ASu2A.8
Liu, Shuang - ASu2A.68
Liu, Si - ASu1J.1
Liu, Siming - ASu1J.1
Liu, Tao - AM3F.3, ASu2A.119
Liu, Tze-An - ASu2A.15
Liu, Wei - AM3C.2
Liu, Wenjun - ASu2A.46
Liu, Wentao - ASu1F.2
Liu, Xi - ASu2A.38
Liu, Xiang - AM1F.1, AM3D, AS3H.4,
ASu3E.4
Liu, Xiaoqi - ASu2A.55
Liu, Xin-chang - ASu2A.112
Liu, Xinjun - ASu4F.2
Liu, XInkai - ASu4H.3
Liu, Yafan - AM1F.8
Liu, Yang - ASu2A.71
Liu, Yange - ASu2A.59
Liu, Yan-ge - ASu2A.55
Liu, Yejun - ASu1G.4, ASu3G.3,
ASu3G.4
Liu, Yingfeng - AS3E.5
Liu, Yinming - ASu2A.50
Liu, Yu - AM1B.3
Liu, Yuan - AM2E.5
Liu, Yumin - ASu2A.139, ASu2A.147,
ASu2A.9
Liu, Yunqi - AM1D.3, ASu2A.48
Liu, Zheng - ASu2A.128, ASu5A.4
Liu, Zhiming - AM2D.3, ASu2A.135,
ASu2A.138
Liu, Zhixin - AM3I.3
Liu, Zufeng - ASu5E.2
Lo, Po Kim - AS4I.7
Lobov, Gleb - ASu1A.5
Long, Keping - AM3E.3, ASu4B.3
Long, Yun - ASu2A.129, ASu2A.131,
ASu2A.132, ASu2A.99
López-galmiche, Gisela - AM2B.5
Louchet, Hadrien - ASu1E.1, ASu3F.5
Lourdiane, Mounia - AM3G.5
Lu, Chao - AM3E.3, AS4F.6, AS4I.6,
ASu2A.151, ASu3F.2, ASu3F.3
Lu, Fan - ASu2A.17
Lu, Guo-Wei - AM1J.5, AS3J
Lu, Luluzi - ASu2A.7
Lu, Pengfei - ASu2A.16
Lu, Ping - AM1D.6
Lu, Wei - AS4C.4
Lu, Xiaofeng - AS4D.1, AS4D.3,
ASu1J.5
Lu, Zejin - ASu2A.47
Luis, Ruben S.- ASu5D.5
Luk, Hon-Tung - ASu3H.1
Luo, Jiawei - AS4D.2
Luo, Jin - ASu4B.5
Luo, Jun - ASu4C.3
Luo, Kathy - AM1J.1
Luo, Pengfei - AM1E.2
Luo, Shuai - AM2A.2
Luo, Wenyong - AM3C.4
Luo, Yanhua - ASu2A.46
Luo, Yanhua - ASu2A.56, ASu4B.2
Luo, Yiyang - ASu2A.40
Luo, Yiyang - ASu1C.3
Luo, Yuchan - ASu2A.26
Luo, Zhengqian - AM2B.6
Lv, Dajuan - ASu2A.45
Lv, Yunxin - AM1E.6
Lyubomirsky, Ilya - ASu4C.2
M
M. H.Sshalaby, Hossam - ASu1H.4,
ASu5D.2
Ma, Chen - ASu5F.3, ASu5F.4
Ma, Chenxing - ASu2A.97
Ma, Jianxin - ASu2A.116, ASu2A.86
Ma, Qian - ASu2A.50
Ma, Rui - ASu2A.147
Ma, Shoujiang - AM2E.3
Ma, Xiu-Wen - ASu3B.1
Madsen, Peter - AM1E.3
Maeda, Joji - AM3B.2
Mahloo, Mozhgan - ASu3G.1
Mailis, Sakarellis - ASu3A.1
Maivan, Lap - AM2F.3
Malacarne, Antonio - ASu1F.4
Maloum, Fatah - ASu1A.1
Man, Jiangwei - AM1F.1
Man, Ray - AM3B.6
Mano, Takehiro - ASu1D.3
Mao, Guoming - ASu3B.2
Mao, Mingzhi - AM1F.2
Marinins, Aleksandrs - ASu1A.2,
ASu1A.5
Marques, Leonel - ASu5H.1
Marris-Morini, Delphine - ASu5B.1
Martelli, Paolo - AS4H.2
Martinez-Jiminez, G - ASu3A.1
Maruta, Akihiro - AS3E.1, AS3J.3
Masaharu, Ohashi - ASu2A.65,
ASu2A.66, ASu2A.67, ASu2A.77
Mashanovich, Goran Z.- ASu3A.1
Mather, Melissa - ASu1I
Matsumoto, Atsushi - AM2A.1,
ASu5A.1
Matsumoto, Ryosuke - AS3J.3
Matsuo, Shoichiro - ASu2A.67
Matsuura, Hiroyuki - AS4A.2
Medhin, Ashenafi Kiros - ASu1B.4
Megret, Patrice - AM2E.1
Mehmeri, Victor - AM1H.5, ASu5G.1
Mehrvar, Hamid - AM3A.1, AS4G.3
Mei, Chao - ASu2A.6
Melkumov, Mikhail - ASu3C.3
Meloni, Gianluca - ASu1F.4
Menard, Michael - ASu5B.3
Meng, Jianjun - ASu3B.5
Meng, Jingkai - ASu4G.2
Meng, Xinyu - ASu2A.48
Meng, Zhou - ASu2A.140
Michel, Jurgen - AS3A.3
Mihai, Laura - ASu2A.56
Milione, Giovanni - ASu5D.1
Minh, Hoa Le - AM1E.2
MINO, Shinji - ASu4H.1
Mishra, Satyendra K.- AM3H.6
Mishra, Vaibhawa - ASu5G.2
Mitchell, Colin J.- ASu3A.1
Miyamoto, Yutaka - ASu5E.1
Miyoshi, Yuji - ASu2A.65, ASu2A.66,
ASu2A.67, ASu2A.77
Mo, Qi - AS3H.2, ASu2A.43
Moeneclaey, Bart - AM1B.4
MOEYAERT, Veronique - AM2E.1
Mohammad Ali, Howraa - AM1H.1
Mohammed, Mohammed - ASu2A.73
Mongardien, Dominique - AM3D.2
Mönkemöller, Viola - AS3I.1
Monti, Paolo - AS3G.1, ASu3G,
ASu5F.2, ASu5F.5
Moon, Dae Seung - ASu4B.4
Moon, Ki Won - ASu2A.52
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N
Naeem, Muhammad Azhar - AM1A.2
Nagashima, Tomotaka - AM1B.6,
ASu4H.1
Nagatani, Munehiko - ASu5E.1
Nakagawa, Goji - AM1E.4
Nakayama, Kotaro - ASu1D.4
Nakayama, Yutaro - ASu1D.4
Namiki, Shu - AM3F.1, AM3I.2,
AS3J.2, AS4A.2
Nan, Chi - ASu2A.93
Nan, Zhou - ASu2A.37
Negut, Daniel - ASu2A.56
Ng, Jo Shien - ASu5A.3
Nguyen Tan, Hung - AM3F.1, AM3I.2,
AS3J.2
Ni, Wenjun - AM1D.6
Ni, Xiaochang - ASu2A.13
Nicolescu, Gabriela - ASu2A.12
Nie, Song - ASu2A.97
Nikdast, Mahdi - ASu2A.12
Ningbo, Yi - ASu2A.18, ASu2A.19
Nirmalathas, Ampalavanapillai
- ASu3G.4
Nishihara, Masato - AM3E.1
Nordquist, Robert - ASu1I.2
Nuño, Javier - AM2E.6
O
Oda, Shoichiro - AM1E.4
O’Faolain, Liam - ASu3A.1
Oguro, Takahiro - ASu2A.77
Oh, Kyunghwan - ASu4B.4
Ohishi, Yasutake - AS3C.2
Okabe, Ryo - AM3E.1
Okahisa, Shinya - ASu1D.4
Okonkwo, Chigo M.- AM2B.4,
AM2B.5, AM3E, AS4E.4
Okuno, Masayuki - ASu4H.1
Olsson, Samuel L.- AS3F.4
Onori, Daniel - AM2G.1
Östling, Mikael - ASu1A.5
Ota, Kazuya - AS3J.2
Ota, Masashi - ASu1D.5
Oxenløwe, Leif K.- AM2H.1
Ozaki, Kazuho - ASu2A.66
Ozawa, Takumi - ASu2A.67
Ozolins, Oskars - ASu2A.75
P
Pagès, Albert - AM1H.2
Palacharla, Paparao - ASu3H.2
Pan, Ci-Ling - ASu1D, ASu3D,
ASu3D.1
Pan, Deng - AS4C.6
Pan, Dongwei D.- AS4F.4, ASu2A.78
Pan, Jui Wen - ASu2A.161
Pan, Shilong - AM1G.5, ASu5I.1
Pan, Wei - ASu4H.3
Pang, Fufei - AM3C.5, ASu2A.46
Pang, Xiaodan - ASu2A.75
Panoiu, Nicolae - AS3B.5
Park, Hyoung-Joon - AM1F.4
Park, Jinwoo - ASu2A.63
Park, Jongchan - ASu1I.4
Park, Kyung Hyun - ASu2A.52
Park, YongKeun - AM1I.4, AS3I.4,
ASu1I.3, ASu1I.4, ASu2A.156,
ASu2A.158, ASu2A.159,
ASu4G.1, ASu4G.4, ASu5H.3
Parygin, Alexandr - AM2D.4
Pasquazi, Alessia - AM3B.6, ASu4A.5
Pattavina, Achille - AS4H.2, ASu1G.2
Payne, David - AS3H.5
Peacock, Anna - ASu3A.1, ASu5C.1
Peccianti, Marco - ASu4A.5
Pechprasarn, Suejit - ASu4G.2
Pelusi, Mark - AM3I.2
Peng, Gang-Ding - AM1I.6,
ASu2A.46, ASu2A.56, ASu4B.2
Peng, Huanfa - AM2G.3
Peng, Jin-Long - ASu2A.15
Peng, Jizong - AM2F.2, AM2F.4
Peng, Limei - AM1H.4, AM3G
Peng, Wei-Ren - ASu1F.1
Peng, Yi - ASu5B.4
Peng, Yuxin - AS3I.2
Penty, Richard V.- AM3A.5, ASu2A.87
Perelló, Jordi - AM1H.2
Perez-Cota, Fernando - ASu5H.1
Pertermann, Klaus - AS4J.3
Petit, Stephane - AS3J.2
Phillips, Ian - AM2E.6
Pilger, Christian - AM2B, AS3I.1,
ASu2A.160
Pilipetskii, Alexei - AS3F.1
Poon, Andrew W.- AM1B.5, AS3B
Popov, Sergei - ASu1A.2, ASu1A.5,
ASu2A.75
Poti, Luca - ASu1F.4
Pournoury, Marzieh - ASu4B.4
Prasad, Mukul - ASu3H.2
Pravin Dali, Prathmesh - ASu2A.28
Pu, Tao - ASu2A.124, ASu2A.130
Puttnam, Benjamin J.- ASu5D.5
Q
Qi, Minghao - AS4J.1
Qian, Chen - AM1F.3, AM1F.6,
AM1F.7, AM1F.8, AM2C.3
Qian, Jia - ASu2A.118
Qian, Xianyang - AM1I.3
Qian, Yi - AS4G.3
Qiao, Liang - ASu5A.3
Qiao, Yaojun - AM3D.3, ASu5E.2
Qin, Heng - ASu2A.82
Qin, Jie - ASu3I.3
Qin, Jun - AM1J.5
Qinghai, Song - ASu2A.19
Qiong, Wu - ASu2A.44
Qiu, Ciyuan - AM2F.2, AM2F.4
Qiu, Jifang - ASu1C.4
Qiu, Kun - AM1E.6, AM2E.4, AM3I.4,
AS4C.5, ASu2A.121, ASu2A.31,
ASu2A.36, ASu2A.5
Qiu, Xuhui - AM3H.2, ASu4G.3
Qiu, Yang - ASu2A.108
Qu, Bo - AS4I.2, ASu2A.154
Qu, Ronghui - ASu3C.4
Qu, Zhen - AS3D.3
Quan, Jinguo - AS3D.2
Quan, Mingran - ASu2A.47
R
Radic, Stojan - ASu4D.1
Rafiq Khan, Arslan - ASu2A.50
Rahman, Azizur - AS3C.2
Raker, Joseph - ASu1I.2
Ran, Yang - AM3H.4, AM3H.5,
ASu2A.39
Ran, Yanli - ASu2A.152, ASu2A.40
Ranaweera, Chathurika - ASu3G.4
Rao, Yun-Jiang - AM1C.1, AM1C.3,
AM1C.4, AM1I.3, AM2D,
ASu2A.146, ASu2A.150
Reed, Graham T.- ASu1B, ASu3A.1
Reid, Zane - ASu4B.2
Rekaya Ben-Othman, Ghaya - AS4E.2
Ren, Fang - AS3H.2, AS4F.1
Ren, Xiaomin - AM2A., AM2A.4,
AM2A.5, ASu2A.1, ASu2A.11,
ASu2A.35, ASu3B.2, ASu5A.4
Richardson, David J.- AM3I.3, AS4C.2
Richter, Andre - ASu1E.1, ASu3F.5
Riumkin, Konstantin - ASu3C.3
Rizzelli, Giuseppe - AM3D.5
Rodes, Guillermo Arturo - ASu2A.89
Rodriguez, Sebastian - AM1E.3,
ASu1J.5
Rodriguez-Asomoza, Jorge - AM2B.5
Roelkens, Gunther - AM1B.4
Røge, Kasper M.- AM2H.1
Rohollahnejad, Jalal - ASu2A.152,
ASu2A.40
Rommel, Simon - AM1B.7, ASu1J.2,
ASu1J.5
Rosa, Pawel - AM2E.6, AM3D.5
Rösener, Detlef - AS3D.4
Rottondi, Cristina - AS4H.2
Rouifed, Mohamed-Said - ASu5B.1
Russell, Philip S.- AS3C.1
S
Sahu, Sourabh - ASu2A.28
Saintenoy, Stephanie - AM3A.2
Saitoh, Kunimasa - ASu4B.3
Sakai, Hiroki - ASu1D.4
Sanchez-Mondragon, Jose
J.- AM2B.5
Sang, Mei - ASu4B.5
Sang, Xinzhu - ASu2A.113,
ASu2A.123, ASu2A.126,
ASu2A.127, ASu2A.128,
ASu2A.34, ASu2A.56, ASu2A.6
Sanjabi Eznaveh, Zeinab - AM2B.5
Sano, Akihide - ASu5E.1
Savas, Sedef - ASu5F.1, ASu5F.3
Schatz, Richard - ASu2A.75
Schmalen, Laurent - AS3D.4
Schow, Clint - ASu1B.4
Schroeder, Jochen S.- ASu4A.3
Schülzgen, Axel - AM2B.5
Scott, Reynolds - ASu3A.1
Scotti, Filippo - AM2G.1
Secondini, Marco - AM3D.1
Seo, Min Seong - ASu2A.64
Shang, Dongdong - AS3E.5
Shang, Sun - ASu2A.18, ASu2A.19
Shao, Li-Yang - ASu2A.143
Shao, Zengkai - AS3A.4, ASu1B.2,
ASu2A.27
Sharif, Gazi - AM1J.5
Shehata, Heba - AM3F.4
Shen, Bailin - ASu1F.2
Shen, Fangcheng - ASu2A.61
Shen, Gangxiang - AM1H.4, AM2E.2,
AS4G, AS4G.4, ASu2A.76,
ASu3H.3, ASu4E.1, ASu4E.2,
ASu4E.3, ASu5F
Shen, Jianhua - AM1E.1
Shen, Yonghang - AM3B.4, ASu3C.1,
ASu5C
Shen, Zhenhua - AS3B.1
Shi, Jindan - AS4C.2, ASu1C.4
Shi, Jun - ASu2A.44
Shi, Kai - AM3E.2
Shi, Lei - ASu2A.71
Shi, Lu - AM2F.5
Shi, Mengyue - ASu1J.2
Shi, Xiao-dong - ASu2A.112
Shi, Yaocheng - AS3B.2
Shimizu, Satoshi - ASu4H.1
Shimojo, Shinji - AS4H.4
Shin, Jung Hoon - ASu5H.3
Shu, Chester C.T. - ASu4A.4, ASu4D
Shu, Shili - ASu2A.10
Shu, Xuewen - AM3C.1, ASu2A.49,
ASu2A.60, ASu2A.61
Shum, Perry - AM2B.4
Shum, Perry Ping - AM1A.3, AM1D.5,
AM2F.5, AS4E.3, ASu2A.44,
ASu2A.68, ASu2A.84
Shumin, Xiao - ASu2A.19
SILLARD, Pierre - AM2B.5
Singh, Ghanshyam - ASu2A.28
Sinkin, Oleg - AS3F.1
Skorin-Kapov, Nina - AM3G.1
Slavík, Radan - AM3I.3
Smith, Peter G.- AM1J.2
Smith, Richard J.- ASu5H.1
Solis-Trapala, Karen - AM3F.1, AM3I.2
Soltani, Fatemah - ASu5B.3
Somekh, Michael G.- AM1I, AS3I,
ASu4G.2
Somepalli, Bhargav - ASu2A.137
Son, Taehwang - AM2B.1
Sone, Kyosuke - AM1E.4
Song, Jeong Hwan - ASu1B.4
Song, Liang - ASu1H.2
Song, Lijun - AM1E.2
Song, Mei - ASu2A.105
Song, Qinghai - ASu2A.18, ASu2A.8
Song, Yina - ASu2A.103
Song, Yingxiong - AM1F.2, AM2C.3
Sorel, Marc - AS4J.2
Sorin, Fabien - ASu1A.1
Spadaro, Salvatore - AM1H.2
Spolitis, Sandis - ASu5E.3
Sporea, Dan - ASu2A.56
Srinivasan, Balaji - ASu2A.137
Sriratanavaree, Suchara - AS3C.2
Stamatiadis, Christos - AS3J.3
Stankovic, Stevan T.- ASu3A.1
Su, Xiu - ASu2A.62
Su, Yikai - AM2F.2, AM2F.4
Su, Zhaotang - ASu5B.5
Suda, Satoshi - AM3I.2, AS4A.2
Sugunan, Abhilash - ASu1A.5
Suhr, Lau - AM1E.3, ASu4C.2
Sui, Qi - AS4D.2
Sui, Xiubao - ASu2A.118
Sui, Zhicheng - ASu2A.107
Suikat, Detlef - AS3D.4
Sumimura, Asahi - ASu1D.5
Sun, Bing - AM2D.2
Sun, Chunlei - AS3J.4, ASu5A.2
Sun, Dan-dan - ASu2A.112
Sun, Fukuan - AM2A.3, AM2A.4
Sun, Jian - ASu2A.120
Sun, Li-Peng - AM3H.4, ASu2A.39
Sun, Mengxun - ASu2A.69
Sun, Qiao - ASu2A.140
Sun, Qinjun - ASu1A.4
Sun, Qizhen - ASu1C.3, ASu2A.70,
ASu2A.80
Sun, Weiqiang - AS4G.5, ASu1H.6
Sun, Wenhui - ASu5I.4
Sun, Wentao - ASu2A.72
Sun, Xiao - AS3H.3, ASu3E.2
Sun, Xiaolan - ASu2A.141
Sun, xiaomeng - AS4J.3
Sun, Xu - ASu1D.2
Sun, Yu - AS3F.1
Sun, Zhenshi - ASu2A.150
Sun, Zhongyuan - ASu2A.80
Suzuki, Keijiro - AS4A.2
Swenson, Norman - ASu5E.4
Key to Authors
Moradi, Emilia - ASu5H.1
Morandotti, Roberto - ASu4A.5
Morea, Annalisa - AS3E.2
Morero, Damian A.- ASu5E.4
Morimoto, Hiroki - AM2G.2
Morizumi, Yuki - ASu2A.95
Moser, Michael - AM3A.2
Moss, David J.- ASu4A.1
Moss, David J. - ASu4A, ASu4A.5
Mou, Chengbo - ASu2A.80
Mu, Jiaxing - AS3I.2
Mukherjee, Biswanath - ASu4E,
ASu5F.1, ASu5F.3
Müller, Marcel - AS3I.1, ASu2A.160
Murakawa, Takuya - ASu4H.1
Murdoch, Stuart G.- AM1J.1
Mussot, Arnaud - AM2C, AS4C.1,
ASu5C.3
Musumeci, Francesco - ASu1G.2
T
Tafur Monroy, Idelfonso - AM1B.7,
AM1E.3, AM1H.5, AS4D.1,
AS4D.3, ASu1J.2, ASu1J.5,
ASu2A.89, ASu4C.2, ASu5E.3,
ASu5G.1
Takagi, Shinichi - ASu5B.2
Takahara, Tomoo - AM3E.1, ASu4C
Takasaka, Shigehiro - AS3J.2
takenaga, katsuhiro - ASu2A.67
Takenaka, Mitsuru - ASu5B.2
Takenouchi, Hirokazu - AM2H.2
Talli, Giuseppe - AS3H.5
Tam, HawYaw - ASu2A.151
Tam, Hwa Yaw - AM3B.4, AS4I.6
Tan, Dan - ASu3J.3
Tan, Fengze - ASu2A.43
Tan, Ming C.- AS4F.6
Tan, Mingming - AM2E.6, AM3D.5
Tan, Sisi - ASu3I.1, ASu3I.4
Tan, Yanxia - ASu4F.2
Tan, Yuanlong - AS4H.5, ASu4E.4
Tan, Zhongwei - ASu2A.120
Tanabe, Takasumi - ASu2A.28
Tanaka, Toshiki - AM3E.1
Tang, Changwei - ASu2A.45
Tang, Fengxian - ASu4E.3
Tang, Jian - AM2D.2
Tang, Jianming - ASu2A.87
Tang, Ming - AM1A.3, AM1D.5,
AM2B.4, AM2F.5, AS4E.3,
ASu2A.44, ASu2A.68, ASu2A.84
Tang, Ruizhi - AS3H.2
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Key to Authors
Tang, Xianfeng - AS4F.4, ASu2A.115,
ASu2A.54, ASu2A.78
Tang, Xiaoli - ASu1C.2
Tanizawa, Ken - AS3J.2, AS4A.2
Tao, Li - ASu2A.93
Tao, Zhenning - AM1E.4, AM3E.1
Tatarczak, Anna - ASu1J.5, ASu2A.89
Teh, Peh Chiong - AS4I.7
Teisseire, Jeremie - ASu1A.1
Teruya, Miku - ASu2A.85
Tey, Kok Leng - AS4I.7
Thai Le, Son - AM3D.5
Thomsen, Benn C.- AM3E.2
Thomson, David - ASu3A.1
Thylén, Lars - ASu1A.5, ASu1D.2
Tian, Huiping - AS4I.5, ASu1J.1
Tian, Jiajun - ASu2A.47
Tian, Sicong - ASu2A.10
Tian, Wei - ASu2A.54
Tian, Wen Jing - AM1I.2
Tian, Yu - AM1E.8, AM3G.2, AS4F.1
Tiwari, Rakhee - ASu5F.1
Toda, Hiroyuki - AM2G.2
Tokas, Konstantinos - AS4D.4
Tong, Cunzhu - ASu2A.10
Tong, Peiqian - ASu1A.4
Topley, Robert T.- ASu3A.1
Toprak, Muhammet - ASu1A.2,
ASu1A.5
Tornatore, Massimo - AS4H.2,
AS4H.6, ASu1G.2
Trajkovic, Jelena - ASu2A.12
Tremblay, Christine - AS3B.4
Trillo, Stefano - ASu5C.3
Tsai, Cheng-Ting - ASu2A.79
Tsang, Hon K.- ASu2A.8, ASu4A.2,
ASu4A.4, ASu5B
Tsang, Kwong Shing - AM3B.6
Tseng, Chun-Wei - ASu1A.6
Tu, Jiajing - ASu4B.3
Tu, Xiaobo - ASu2A.140
Tu, Xin - AS4B.3
Tuanwei, Xu - ASu2A.149
Tuchin, Varley - ASu2A.158
Turitsyn, Sergei K.- ASu3F.1
U
Uenohara, Hiroyuki - AM3F.2,
ASu4H.1
Umeki, Takeshi - AM2H.2
Umezawa, Toshimasa - AM2A.1,
ASu5A, ASu5A.1
Urbas, Augustine - ASu5A.5
Uto, Kenichi - AS3D
V
Vakarin, Vladyslav - ASu5B.1
Valcarenghi, Luca - AS3G.2, ASu1G.3
Van Campenhout, Joris - AM1B.4
Vasil’ev, Peter - AM3A.5
Vasileva, Elena - ASu1A.2
Vegas Olmos, Juan Jose - AM1B.7,
AM1E.3, AM1H.5, ASu1J.2,
ASu1J.5, ASu2A.89, ASu4C.2,
ASu5E.3, ASu5G.1
Velazquez-Benitez, Amado
M.- AM2B.5
Venkitesh, Deepa - ASu2A.137
Verbist, Jochem - AM1B.4
Verheyen, Peter - AM1B.4
Vivien, Laurent - ASu5B.1
W
Wada, Naoya - ASu4H.1, ASu5D.5
Wagner, Christoph - ASu5E.3
Wahlbrink, Thorsten - ASu1B.3
Wai, Ping Kong A.- AM3B.4, AM3B.6,
AS4C.4, ASu5C.4
Walkowiak, Krzysztof - AS4H.3,
AS4H.6
Wan, Wenjie - AS3B.1
Wang , Guanghui - AM1I.1, AM1I.5,
AM3H
Wang, Andong - ASu2A.111
Wang, Bing - AS3A.3
Wang, Changle - ASu2A.70
Wang, Chuan - ASu2A.122
Wang, Cong - AS3A.3
Wang, Dajiang - ASu2A.109
Wang, Dan - AM1E.7
Wang, Danshi - AM3E.4, ASu3F.4
Wang, Dawei - AS4G.3
Wang, Dongdong - ASu2A.81
wang, Hongxiang - AM1J.5
Wang, Hua - ASu2A.32
Wang, Huai-Yung - ASu2A.79
Wang, Huitao - ASu2A.110
wang, jiahe - ASu2A.96
Wang, Jian - ASu2A.101, ASu2A.111,
ASu2A.129, ASu2A.131,
ASu2A.132, ASu2A.2, ASu2A.98,
ASu2A.99
Wang, Jiaqi - ASu4A.2, ASu4A.4
Wang, Jiayu - ASu2A.109
WANG, Jie - AM3B.4, AS4I.6,
ASu3C.1
Wang, Jing - AM1E.6, AM2E.4
Wang, Jun - AM2A.5, ASu2A.1,
ASu2A.11, ASu2A.35, ASu5A.4
Wang, Junjia - AS3B.4
Wang, Kang - ASu1H.2
Wang, Keyi - ASu2A.41
Wang, Kuiru - ASu2A.113,
ASu2A.123, ASu2A.126,
ASu2A.128, ASu2A.34, ASu2A.6
Wang, Lei - AS4H.7, ASu4F.2,
ASu4F.6
WANG, Liang - AM3E.3, AS4I.6,
ASu2A.151
Wang, Lijie - ASu2A.10
Wang, limeng - AM2H.3
Wang, Lingfang - ASu3A.3
Wang, Liqian - AS3E.5, ASu2A.81,
ASu2A.96
Wang, Meiqian - ASu5F.2
Wang, Min - AM1F.2, AM1F.8,
AM2C.3
Wang, Muguang - ASu2A.120
Wang, Peng - AS3I.2
Wang, Qi - AM2A.5, AS3D.2,
ASu2A.1, ASu2A.11, ASu2A.35,
ASu3B.2, ASu5A.4
Wang, Qin - ASu2A.86
Wang, Qiuguo - ASu2A.14, ASu2A.94
Wang, Qunyang - ASu2A.119
Wang, Rong - ASu2A.124
Wang, Ruoxu - AM1D.5, ASu2A.84
Wang, Shangcheng - ASu2A.59
Wang, Shaohao - ASu5C.4
Wang, Shipeng - AM1B.2
Wang, Shumin - ASu2A.16
Wang, Shun - AM1D.6
Wang, Siya - AM1B.2
Wang, Song - AM1I.3, ASu2A.146
Wang, Ting - ASu5D.1
Wang, Tingyun - AM1D.3, AM3C.5,
ASu2A.46
Wang, Wanli - AM3D.3
Wang, Wei - ASu4F.3
Wang, Weiguang - ASu2A.69
wang, wenting - ASu5I.4
Wang, Xi - ASu3H.2
Wang, Xiaojian - AM3B.5, ASu3C.2
Wang, Xiaoling - ASu2A.102,
ASu4E.2
Wang, Xie - ASu3I.1
Wang, Xinbo - ASu5F.3
Wang, Xingjun - ASu5B.5
Wang, Xudong - AM1G.2
Wang, Xuyang - AM3C.4
Wang, Yan - ASu3A.3
Wang, Yanjin - ASu2A.93
Wang, Yanshan - ASu2A.32
Wang, Yiguang - ASu2A.93
Wang, Yiping - AM2D.2
Wang, Yu - AM1A.5
Wang, Yuxi - AM2B.2
Wang, Zhansheng - ASu5E.2
Wang, Zhaocheng - AS3D.2
Wang, Zhenhong - ASu2A.59,
ASu2A.62
Wang, Zhenyu - ASu2A.109
Wang, Zhi - ASu2A.55, ASu2A.59,
ASu2A.62
Wang, Zhixin - ASu2A.93
Wang, Zinan - AM1C.3, AM1C.4,
AM1I.3, ASu2A.146, ASu2A.150
Watanabe, Ryo - ASu1D.5
Webb, Karen E.- AM1J.1
Webb, Kevin F.- ASu5H.1
Webber, Zondy - ASu5C.1
Weerdenburg, John V.- AM2B.4
Wei, Jinlong - AS3H.5, ASu2A.87
Wei, Xiaoming - ASu3I.1, ASu3I.4
Wei, Zhengwu - ASu5I.1
Weijun, Tong - AM1D.5, ASu4B.1
Weiner, Andrew M.- AS4J.1
Weizhong, Zhou - ASu2A.19
Wen, Feng - AS4C.5, ASu2A.121,
ASu2A.31
Wen, Jianxiang - ASu2A.46,
ASu2A.56
Wen, Xiang - ASu2A.8
Wen, Yongqiang - ASu2A.152
Weng, Hai-Zhong - ASu3B.3
White, Ian H.- AM3A.5, ASu2A.87
Wiebusch, Gerd - AM2B.3, AS3I.1,
ASu2A.160
Williams, Christopher - AM1B.1
Wilson, Peter R.- ASu3A.1
Winzer, Peter J.- AS4E.1
Wolf, Alexey - AM2D.4
Wong, Elaine - AS3H.1, ASu3G.4,
ASu5F.5
Wong, Kenneth Kin-Yip - AM1C,
AM2C.2, ASu3I.1, ASu3I.4
Wosinska, Lena - AM3G.1, AS3G,
AS4H, ASu3G.1, ASu5F.2,
ASu5F.5
Wosinski, Lech - ASu1A.5, ASu1D.2
Wu, Bao-Jian - AS4C.5, ASu2A.121,
ASu2A.31, ASu2A.5
Wu, Beibei - AS3J.4, ASu5A.2
Wu, Bo - ASu3C.1, ASu4C.3
Wu, Chuanjun - ASu2A.107
Wu, Haibo - ASu2A.154
Wu, Han - AM1C.3, AM1C.4
Wu, Hao - ASu2A.10
Wu, Huijuan - ASu2A.150
Wu, Jian - AM3C.3, AS3F.3, ASu1C.4,
ASu2A.82
Wu, Jiayang - AM2F.2, AM2F.4
Wu, Liyuan - ASu2A.16
Wu, Ming C.- AS4A.1
Wu, Qi - ASu1E.4
Wu, Qiong - ASu2A.84
Wu, Shao-Yi - ASu2A.142
Wu, Tsai-Chen - ASu2A.125
Wu, Xinru - ASu4A.2, ASu4H.5
Wu, Xueyan - ASu2A.32
Wu, Yao - AM2A.4
Wu, Zhaohui - ASu3C.2
Wu, Zhichao - ASu1C.3
Wu, Zhongle - AM2H.4
Wu, Zhongying - AM1E.8, AM3G.2,
AS3H.2, AS4F.1
Wuilpart, Marc - AM2E.1
X
Xi, Lixia - ASu2A.54, ASu2A.78
Xia, Bin - ASu2A.107
Xia, Jinsong - ASu2A.132
Xia, Li - ASu2A.152, ASu2A.40
Xia, Yuhao - AS3B.3, AS4A.4, AS4A.5
Xiang, Lian - ASu2A.76, ASu4E.3
Xiang, Peng - ASu2A.124, ASu2A.130
Xiao, Gui - ASu2A.56
Xiao, Jinghua - AM1G.3, AM1I.2,
ASu2A.122, ASu5B.4
Xiao, Jin-Long - AM2A.2, ASu3B.1,
ASu3B.3
Xiao, Limin - ASu5C.1
Xiao, Liquan - ASu2A.128
Xiao, Qingsheng - ASu5I.5
Xiao, Shilin - AS3E.4, AS4F.3,
ASu1H.6
Xiao, Shumin - ASu2A.18
Xiao, Simiao - AS3H.3, ASu3E.2
Xiao, Xiaosheng - AM3B.3
Xiao, Zhi-Xiong - ASu3B.3
Xiaowei, Guo - ASu2A.4
Xie, Chongjin - ASu3F, ASu4C.1
Xie, Mutong - AM1G.3
Xie, Shizhong - AM3B.5, ASu2A.3,
ASu3C.2
Xie, Weilin - ASu3I.3
Xin, Fangjian - AM2B.2
Xin, Haiyun - ASu3E.3
Xin, Xiangjun - ASu2A.116, ASu5D.4
Xin, Yingchao - AS4F.1
Xiong, Liangming - ASu2A.45
Xu, Anshi - ASu2A.17, ASu2A.30
Xu, Chris - ASu1C.1, ASu4B
Xu, Cong - AS3C.3
Xu, Dan - ASu3C.4
Xu, Fei - AS4I.1
Xu, Hengying - ASu2A.14
Xu, Huiying - AS4G.2
Xu, Jian - AM3H.2
Xu, Ke - ASu2A.8, ASu4A.4
Xu, Kun - AM2H.4, ASu1J.4,
ASu2A.119, ASu2A.122, ASu3J.3
Xu, Lijuan - ASu2A.13
Xu, Longtao - AM1G.1
Xu, Peng - ASu2A.57
Xu, Pengfei - ASu2A.27, ASu5I.5
Xu, Qi Wei - AM1I.2
Xu, Shanhui - AM1C.2
Xu, Tuanwei - ASu2A.148
Xu, Xinbiao - ASu2A.71
Xu, Xinchuan - ASu5C.4
Xu, Xingyuan - AM2H.4
Xu, Yiqing - ASu3I.4
Xu, Yongchi - AM2G.3
Xu, Zhaowei - AM1F.5
Xu, Zhilin - AS4E.3, ASu1C.3
Xu, Zhuoran - AS4F.5, AS4F.7
Xu, Zuowei - ASu2A.49
Xue, Chenpeng - AM1E.6, AM2E.4
Xue, Naitian - AM1I.3
Xue, Ziwei - AM1F.6
Xuejun , Zhang - AM3H.2
Y
Yagi, Takeshi - AS3J.2
Yamada, Hirohito - AM2A.1
Yamada, Koji - ASu3A, ASu3A.4
Yamaguchi , Shigeru - AM1J.5
Yamaguchi, Takashi - AM2G.2
Yamamoto, Naokatsu - AM2A,
AM2A.1, ASu5A.1
Yaman, Fatih - AM3D.4, ASu5E
Yamauchi, Tomohiro - AM1E.4
Yan, Binbin - ASu2A.113, ASu2A.123,
ASu2A.126, ASu2A.128,
ASu2A.34, ASu2A.56, ASu2A.6
Yan, Jhih-Heng - ASu1F.1
Yan, Min - ASu1A.5
Yan, Xin - AM2A.3, AM2A.4
Yan, Zheng - AS3E.5
Yan, Zhijun - ASu2A.70, ASu2A.80
Yanagiya, Shin-ichiro - AM3F.6,
ASu4H.4
Yang, Changsheng - AM1C.2
Yang, Chun - ASu1J.3
Yang, Chunchuan - AS3A.4, ASu1B.2,
ASu2A.27
Yang, Daquan - AS4I.5, ASu1J.1
Yang, Fei - ASu3C.4
Yang, Futao - ASu4F.6
Yang, Guang - ASu2A.59
Yang, Hui - AM1H.3, AS4H.5,
ASu4E.4, ASu5F.4
Yang, Hujiang - ASu2A.122, ASu5B.4
Yang, Jianfan - AS3B.1
Yang, Lin - AS3B.3, AS4A.4, AS4A.5,
ASu5B.4
Yang, Liqun - ASu5D.3
Yang, Se-Hoon - AM1E.5
Yang, Sigang - AM2B.2, AM3B.5,
ASu2A.3, ASu3C.2
Yang, Su-A - ASu4G.4
Yang, Tao - AM2A.2
Yang, Yanfu - AS4F.2
Yang, Yang - ASu2A.116
Yang, Yue-De - AM2A.2, ASu3B.1,
ASu3B.3
Yang, Zhongmin - AM1C.2
Yang’an, Zhang - AM2H.3
Yao, Jia - ASu2A.50
Yao, Yong - AS4F.2, ASu2A.47
YE, Chenhui - AS3H.3, ASu3E.2
Asia Communications and Photonics Conference (ACP) • 19 November 2015–23 November 2015 • Page 92
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Yu, Yu - AS3J.4, ASu2A.26, ASu5A.2
Yu, Zhipeng - AM3H.5
Yu, Zhongyuan - ASu2A.139,
ASu2A.147, ASu2A.57, ASu2A.9
Yuan, Haiqing - AM1B.3, ASu5I.4
Yuan, Jin - AS4F.4
Yuan, Jinhui - AM3E.3, ASu2A.113,
ASu2A.123, ASu2A.126,
ASu2A.128, ASu2A.34, ASu2A.38,
ASu2A.57, ASu2A.6
Yuan, Xiaocong - AM3H.1
Yue, Lei - AS3F.3
Yueqing, Du - ASu2A.49
Z
Zami, Thierry - AM3G.3
Zamiri, Ali - ASu4B.4
Zang, Jizhao - AS3F.3
Zang, Junjie - AS4H.7
Zayats, Anatoly .- ASu1D.1
Zeng, Huaiyu - ASu3E.4
Zeng, Li - AM1F.1
Zeng, Xianglong - AM2C.3
Zeng, Xinglin - AM3C.3
Zervas, Georgios S.- AM1E, ASu3H,
ASu5G.2
Zhan, Qiuqiang - ASu1A.4
Zhan, Tingting - AS4I.2
Zhang, A. Ping - AM3B.4, AS4I.6
Zhang, Cheng - AM1J.4, AM2G.3
Zhang, Chengliang - ASu2A.103
Zhang, Chenzhao - AM1B.2, AS4B.4
Zhang, Chi - ASu3I.4
Zhang, Chong - AM3A.3
Zhang, Dong - ASu2A.82
Zhang, Dongxu - ASu2A.110
Zhang, Dongying - AM1I.1
Zhang, Fan - AM1E.7
Zhang, Fangzheng - AM1G.5, ASu1J
Zhang, Fnafan - AS4A.4
Zhang, Guina - ASu2A.50
Zhang, Guoying - ASu2A.106,
ASu4E.4, ASu4F.1, ASu5F.4
Zhang, Han - ASu2A.132
Zhang, Heng - ASu2A.104
zhang, hongbin - AS3F.1
Zhang, Hongguang - AM1F.5
Zhang, Hu - ASu2A.54
Zhang, Ji - AS4I.2, ASu2A.154
Zhang, Jiangshan - AM1D.6
Zhang, Jiawei - AS4H.1, ASu2A.105
Zhang, Jie - AM1H.3, AM1H.6,
AM3C.4, AS4H.1, AS4H.5,
AS4H.7, ASu1H, ASu1H.1,
ASu2A.102, ASu2A.103,
ASu2A.106, ASu2A.109, ASu4E.2,
ASu4E.4, ASu4F.2, ASu4F.3,
ASu4F.4, ASu4F.5, ASu5F.3,
ASu5F.4, ASu5G
Zhang, Jie - ASu4F.6
Zhang, Jihan - ASu2A.9
Zhang, Jing - AS4F.5, ASu2A.121,
ASu2A.31
Zhang, Jinnan - ASu2A.82
Zhang, Junjie - AM1F.6, ASu1E.4
Zhang, Junwei - ASu4H.2
Zhang, Junyi - ASu2A.116
Zhang, Kaibin - AS3H.3, ASu3E.2
Zhang, Ke - AS4C.6
Zhang, Kuo - AM2E.5
Zhang, Lei - AS3B.3, AS4A.5,
ASu5B.4
Zhang, Li - AM1C.3, AM1C.4,
AM1I.3, ASu2A.146
Zhang, Liang - AM1D.3
Zhang, Liangjun - ASu2A.84
Zhang, Lijia - ASu5D.4
Zhang, Lin - ASu2A.61, ASu2A.70,
ASu2A.80
Zhang, Liyan - ASu2A.45
Zhang, Lu - AS3E.4, AS4F.3
Zhang, Min - AM1E.2, AM3E.4,
ASu2A.96
Zhang, Minming - ASu2A.7
Zhang, Pei - ASu2A.20, ASu2A.21
Zhang, Peng - AM1D.5
Zhang, Pengfei - ASu2A.62
Zhang, Qi - AS3E.5
Zhang, Qianwu - AM1F.2, AM1F.3,
AM1F.6, AM1F.7, AM2C.3
Zhang, Qiong - ASu3H.2
Zhang, Qun - AS4F.2
Zhang, Ru - ASu2A.114
Zhang, Ruijiao - ASu2A.116
Zhang, Tian - ASu2A.29
Zhang, Weili - ASu4H.3
Zhang, Weite - AM1G.4
Zhang, Wen - ASu2A.9
Zhang, Wenbo - ASu2A.54, ASu2A.78
Zhang, Xia - AM2A.3, AM2A.4,
ASu2A.1, ASu2A.11, ASu2A.14,
ASu2A.54, ASu2A.72, ASu2A.94,
ASu3B.2
Zhang, Xianmin - AM1G.4
Zhang, Xianting - ASu2A.113
Zhang, Xiaoguang - AS4F.4,
ASu2A.54, ASu2A.78
Zhang, Xinliang - AS3J.4, ASu2A.26,
ASu2A.71, ASu5A.2
Zhang, Xuping - AM1I.1, AM1I.5
Zhang, Yan - ASu2A.50
Zhang, Yanfeng - AM3C.4, AS3A.4,
ASu1B.2, ASu2A.27, ASu5I.5
Zhang, Yaojing - ASu4A.2
Zhang, Yi - ASu2A.86
Zhang, Yong - ASu2A.132
Zhang, Young - ASu4A.3
Zhang, Yuanfei - AM1C.2
Zhang, Zexuan - ASu5B.5
Zhang, Zhen - AM1F.3, AM1F.7
Zhang, Zhenzhen - ASu2A.53
Zhang, Zhiguo - AM2D.3, ASu2A.135,
ASu2A.138, ASu2A.81, ASu2A.96
Zhang, Zhi-Hong - ASu2A.142
Zhang, Zhike - AM1B.3
Zhao, Donghe - ASu2A.78
Zhao, Jiajia - ASu2A.68
Zhao, Jian - ASu1F.3, ASu2A.43,
ASu4B.5, ASu5D.3
Zhao, Jiyong - ASu2A.124
Zhao, Luming - ASu1C.3
Zhao, Mingyang - AM1G.3
Zhao, Ningbo - ASu2A.53, ASu4B.5
Zhao, Qinghua - ASu2A.53
Zhao, Runmei - ASu1H.5
Zhao, Wenjing - ASu2A.59
Zhao, Yang - ASu4F.6
Zhao, Yichen - ASu1A.5
Zhao, Yifan - ASu2A.99
Zhao, Yongli - AM1H.3, AM1H.6,
AS4H.5, ASu2A.102, ASu2A.103,
ASu2A.106, ASu2A.109, ASu4E.2,
ASu4E.4, ASu4F.3, ASu4F.4,
ASu4F.5, ASu5F.3, ASu5F.4
Zhao, Yuan-li - ASu2A.5
Zhao, Yunchou - AS3B.3, AS4A.4,
AS4A.5
Zhao, Yunhe - AM1D.3
Zhao, Ziwen - AM3C.5
Zheng, Di - ASu4H.3
Zheng, Haiyan - AM3C.5
Zheng, Haomian - ASu4F.3
Zheng, Ruiqi - ASu2A.23
Zheng, Shilie - AM1G.4
Zheng, Shuang - ASu2A.2
Zheng, Xiaoping - ASu2A.104
Zheng, Yuanlin - AS3B.1
Zheng, Yuanwei - ASu2A.150
Zhengxian , Liu - ASu2A.18
Zhong, Kangping - AM3E.3, AS4F.2,
AS4F.8, ASu2A.151
Zhong, Qiao - ASu2A.128
Zhong, Xiaoyong - AM2D.2
Zhong, Xin - ASu5I.4
Zhou, FeiFan - ASu1I.2
Zhou, Hailong - ASu2A.20, ASu2A.21
Zhou, Heng - AM3I.4, ASu2A.31
Zhou, Ji - ASu5E.2
Zhou, Jing - ASu4F.5
Zhou, Kaiming - ASu2A.61, ASu2A.80
Zhou, Lei - ASu3E.1
Zhou, Lidan - ASu1B.2
Zhou, Linjie - AS4A.3, AS4J.3,
ASu2A.129
Zhou, Peng - AM3G.2
Zhou, Peng - AM1E.8
Zhou, Qian - ASu3I.3
ZHOU, tianyan - AS4F.8
Zhou, Wei - ASu2A.86
Zhou, Wen - ASu4A.2
Zhou, Xian - AM3E.3, ASu2A.151,
ASu4C.3
Zhou, Xiang - AS4D, ASu4C.4
Zhou, Xing-yu - AM3I.4, AS4C.5,
ASu2A.121, ASu2A.31, ASu2A.5
Zhou, Xu - ASu3G.2
Zhou, Yu - AM1H.6, ASu1H.1,
ASu4F.5
Zhou, Yue - AM2H.4, ASu1J.4,
ASu3J.3
Zhou, Zhao - AS4F.3
Zhou, Zhenghua - AM2G.4
Zhou, Zhiping - ASu5B.5
Zhu, Bing - ASu2A.83
Zhu, Bingqing - ASu4A.2
Zhu, Dan - ASu5I.1
Zhu, Furong - ASu1A.4
Zhu, Guoxuan - AM3C.4, ASu5I.5
Zhu, Huatao - ASu2A.124
Zhu, Lei - AM1A.3
Zhu, Lixin - AM2G.3
Zhu, Long - ASu2A.101, ASu2A.111,
ASu2A.98, ASu2A.99
Zhu, Ninghua - AM1B.3, ASu5I.4
Zhu, Paikun - AM3G.2, AS3H.2
Zhu, Paikun - AM1E.8, AS4F.1
Zhu, Qingming - AM2F.2, AM2F.4
Zhu, Ruijie - AM1H.3
Zhu, Song - ASu2A.71
Zhu, Xiaoqi - AM1J.4
Zhu, Xiaoxu - AM1H.3, ASu5F.4
Zhu, Yingying - ASu2A.123
Zhu, Yixiao - AM1E.7
Zhu, Zuqing - AM1H, AM2E.3
Zhuang, Jun-Ping - ASu5I.2
Zhuang, Kaiyu - ASu1H.5
Zhuang, Yuan - ASu3B.4
Zibar, Darko - AS4D.1
Zimmermann, Lars - AS4J.3
Zou, Bing - AM3H.6
Zou, Jun - ASu2A.22
Zou, Junni - AM1F.8
Zou, Kaiheng - AM1E.7
Zou, Ling-Xiu - ASu3B.1
Zou, Weiwen - ASu5C.2
Zou, Xihua - ASu4H.3
Zou, Xin - ASu1C.4
Zukerman, Moshe - ASu4E.1
Zuo, Yong - ASu2A.82
Key to Authors
Ye, Fei - ASu1A.2
ye, han - ASu2A.9
Ye, Mengyuan - ASu2A.26
Ye, Tong - AS4G.5
Ye, Zhicheng - AS3H.4
Yeap, Kim Ho - AS4I.7
Yi, Anlin - ASu2A.74
Yi, Fan - ASu4F.4
Yi, Lilin - AS4G.5, ASu1J.2
Yin, Chenxuan - ASu2A.27
Yin, Feifei - AM2H.4, ASu1J.4,
ASu2A.119, ASu3J.3
Yin, Jie - ASu2A.119
Yin, Shan - AM1H.6, ASu1H.1,
ASu4F.5
Yin, Xin - AM1B.4
Ying, Zhoufeng - AM1I.1
Yizhi, Liang - ASu5H.2
Yoishioka, Kyo - ASu2A.153
Yoo, S. J. Ben - AS3A.1
Yoon, Jonghee - AM1I.4, ASu1I.4,
ASu2A.159, ASu4G.4
Yoon, Soon Fatt - AS3A.3
Yoon, Sujin - ASu5A.5
Yoshida, Kensuke - ASu2A.77
Yoshida, Setsuo - AM1E.4
Yoshida, Yuki - AM1F, AS3E.1,
AS3J.3, ASu3E
Yoshioka, Naho - ASu1E.2
You, Jie - AS3B.5
You, Zhi Hong - AM1I.2
Youn, Chun Ju - AM3A.4, ASu2A.25
Yu, Changyuan - AS4F.5, AS4F.6,
AS4F.7
Yu, Chongxiu - ASu2A.123,
ASu2A.128, ASu2A.6
Yu, Chongxu - ASu2A.113,
ASu2A.126, ASu2A.34
Yu, Dawei - AM2B.4
Yu, Fan - ASu3H.2
Yu, Fangyong - ASu2A.38, ASu2A.57
Yu, Haoyong - AS3I.2
Yu, Hongchen - ASu2A.3
Yu, Hyeonseung - ASu1I.3, ASu1I.4,
ASu2A.158, ASu5H.3
Yu, Jia - ASu2A.110
Yu, Junlei - AS3E.5
yu, lijuan - ASu5I.4
Yu, Longhai - AS3B.2
Yu, Luoqin - ASu3I.1
Yu, Siyuan - AM1G.4, AM3C.4,
AS3A.4, ASu1B.2, ASu2A.27,
ASu5I.5
Yu, Song - ASu2A.97, ASu3J.4
Yu, Xiaosong - AS4H.1, ASu2A.106,
ASu2A.109, ASu4E.4
Yu, Yan - AS4I.2
Yu, Yi - AS4F.6, AS4F.7
YU, Yinpeng - ASu3G.4
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