Poster Sessions
Wednesday September 7, 2016 (17:30 - 19:00)
We-14P-1
We-14P-2
We-14P-3
We-14P-4
We-14P-5
We-14P-6
We-14P-7
We-14P-8
We-14P-9
We-14P-10
We-14P-11
We-14P-12
We-14P-13
We-14P-14
We-14P-15
We-14P-16
We-14P-17
Rigorous Coupled Wave Analysis of Near-field Optical Problems
R. Antos1, M. Veis1, K. Palka2, J. Mistrik2, P. Janicek2, Mir. Vlcek2, and T. Ishibashi3, 1Institute of Physics, Charles
University, Czech Republic, 2Faculty of Chemical Technology, University of Pardubice, Czech Republic, 3Department
of Materials Science and Technology, Nagaoka University of Technology, Japan
Theory of Graphene Saturable Absorption
A. Marini1, J. Cox1, and F. J. García de Abajo2, 1ICFO-Institut de Ciencies Fotoniques, The Barcelona Institute of
Science and Technology, Spain, 2ICREA-Institució Catalana de Recerca i Estudis Avançats, Spain
Molecular Sensing with Tunable Graphene Plasmons
A. Marini1, I. Silveiro1, and F. J. García de Abajo2, 1ICFO-Institut de Ciencies Fotoniques, The Barcelona Institute of
Science and Technology, Spain, 2ICREA-Institució Catalana de Recerca i Estudis Avançats, Spain
Unscalable Electromagnetic Hierarchy via Gold Nanorods Observed by STM-assisted Optical Near-field
Microscopy
N. Nishikawa1, K. Uchiyama1, K. Kobayashi1, M. Naruse2, and H. Hori1, 1University of Yamanashi, Japan, 2National
Institute of Information and Communications Technology, Japan
Imaging of Anomalous Internal Reflections of Hyperbolic Phonon-polaritons in Hexagonal Boron
Nitride Nanocones
A. J. Giles1, S. Dai2, O. J. Glembocki3, A. V. Kretinin4, Z. Sun2, C. T. Ellis1, J. G. Tischler3, T. Tanaguchi5, K. Watanabe5,
M. M. Fogler2, K. S. Novoselov4, D. N. Basov2,6, and J. D. Caldwell3, 1NRC Postdoctoral Fellow at U.S. Naval
Research Laboratory, USA, 2Department of Physics, University of California San Diego, USA , 3U.S. Naval Research
Laboratory, USA, 4School of Physics and Astronomy, University of Manchester, UK, 5National Institute for Materials
Science, Japan, 6Department of Physics, Columbia University, USA
Tailoring the Optical Near-field using Local Interference Effect
J. T. Hugall1, A. Singh1, G. Calbris1, and N.F. van Hulst1,2, 1ICFO – The Institute of Photonic Sciences, The Barcelona
Institute of Science and Technology, Spain, 2ICREA- Institució Catalana de Recerca i Estudis Avançats, Spain
Anisotropic Optical Response of Nanostructures with Balanced Gain and Loss
A. Manjavacas, Department of Physics and Astronomy, University of New Mexico, USA
Transfer of Photon Spin to Electron Orbital Angular Momentum
U. C. Fischer1, F. Fontein1, H. Fuchs1, and T. Grosjean2, 1Interface physics group, University of Muenster, Germany,
2CNRS, FEMTO-ST Institute, France
Strong Coupling in the Photoluminescence of Plasmons Coupled with J-aggregates
R. Esteban1, D. Melnikau2, D. Savateeva2, A. Sánchez-Iglesias3, M. Grzelczak3, M. K. Schmidt2, L. M. Liz-Marzán3,4,
J. Aizpurua1,2, and Y. P. Rakovich1,2,4, 1Donostia International Physics Center (DIPC), Spain, 2Centro de Física de
Materiales (MPC, CSIC-UPV/EHU), Spain, 3CIC biomaGune, Spain , 4IKERBASQUE, Basque Foundation for Science,
Spain
Localized Surface Plasmon for Enhanced Lasing Performance in Solution-processed Perovskites
T. S. Kao1, Y. -H. Chou2, K. -B. Hong1, J. -F. Huang1, F. -C. Chen1, and T. -C. Lu1, 1Department of Photonics and
Institute of Electro-Optical Engineering, National Chiao Tung University, Taiwan, 2Institute of Lighting and Energy
Photonics, College of Photonics, National Chiao Tung University, Taiwan
Near Field Hyperspectral Quantum Probing of Multimodal Plasmonic Resonators
A. Cuche1, M. Berthel2, U. Kumar1, G. Colas des Francs3, S. Huant2, E. Dujardin1, C. Girard1 and A. Drezet2,
1CEMES, University of Toulouse and CNRS, France, 2Néel Institute, University Joseph Fourier and CNRS, France, 3ICB,
University of Bourgogne and CNRS, France
Observation of Near-field Optical Excitation of Water Nanodroplet using Azobenzene Molecular Thin
Film
Y. Ohdaira1, K. Shinbo, A. Baba, K. Kato, and F. Kaneko ,Graduate School of Science and Technology, Niigata
University, Japan
Time Resolved Magneto Photoluminescence Study of Inter-well Excitation Transfer via Optical Nearfield Interactions in Diluted-magnetic/nonmagnetic Triple Quantum Wells
S. Kubota, K. Uchiyama, T. Matsumoto, K. Kobayashi, and H. Hori, University of Yamanashi, Japan
High-speed Nanoscale Mapping of Multipolar Resonances in Plasmonic Nanostructures by EELS
V. Flauraud1, G. D. Bernasconi2, J. Butet2, O. J. F. Martin2, J. Brugger1, and D. T. L. Alexander3, 1Microsystems
Laboratory*, 2Nanophotonics and Metrology Laboratory*, 3Interdisciplinary Center for Electron Microscopy*, *Swiss
Federal Institute of Technology Lausanne (EPFL), Switzerland
Plasmonic Lens/ Probe Assisted Tip-enhanced Near-field Raman Spectroscopy
M. Zhang, Qian Xuesen, Laboratory of Space Technology, China Academy of Space Technology, P.R. China
Nano-FTIR: Spectroscopy with 10 nm Spatial Resolution Provides New Insights in Surface Corrosion
M. Boehmler1 and M. Johnson2, 1neaspec GmbH, Germany, 2KTH Royal Institute of Technology, Sweden
Surface-enhanced Raman Spectra of p-ATP at Different Laser Excitation Powers on Silver Nano-surface
N. Takeyasu, R. Kagawa, and T. Kaneta, Graduate School of Natural Science & Technology, Okayama University,
Japan
We-14P-18
We-14P-19
We-14P-20
We-14P-21
We-14P-22
We-14P-23
We-14P-24
We-14P-25
We-14P-26
We-14P-27
We-14P-28
We-14P-29
We-14P-30
We-14P-31
We-14P-32
We-14P-33
We-14P-34
We-14P-35
A Stimulated Raman Scattering CMOS Imager using a High-speed Charge Modulator and Lock-in
Amplifier
D.X. Lioe1, K. Mars1, K. Yasutomi1, K. Kagawa1, M. Hashimoto2, and S. Kawahito1, 1Research Institute of Electronics,
Shizuoka University, Japan, 2Graduate School of Engineering Science, Osaka University, Japan
Computational Approach to Unravel High Lateral Resolutions in Tip-enhanced Raman Scattering
Experiments
D. Kinzel1, S. Trautmann2, and V. Deckert1,2 , 1Institute of Physical Chemistry and Abbe Center of Photonics,
Friedrich-Schiller-University Jena, Germany, 2Leibniz Institute of Photonic Technology, Germany
Single-molecule Raman Spectroscopy - from Porphyrins to Biomolecules
S. Gawinkowski1, R. Lane1, O. Planas2, S. Nonell2, and N.F. van Hulst1,3, 1ICFO-The Institute of Photonic Sciences,
Spain, 2Institut Quimic de Sarria, Universitat Ramon Llull, Spain, 3ICREA – Institució Catalana de Recerca i Estudis
Avançats, Spain
Optical Nanocrystallography with Infrared Scattering-scanning Near-field Spectroscopy
E. A. Muller1, B. Pollard1, H. A. Bechtel2, P. Van Blerkom1, and M. B. Raschke1, 1University of Colorado Department
of Physics, Department of Chemistry and JILA, USA, 2Lawrence Berkeley National Laboratory Advanced Light Source
Division, USA
In-situ Tip-enhanced Spectroscopic Analysis of Cathode Surface in Lithium Ion Battery Under
Electrochemical Processes
K. Hara1, T. Yano1,2, and M. Hara1,2,3, 1School of Chemical Science and Engineering, Tokyo institute of Technology,
Japan, 2RIKEN, Japan, 3Earth-Life Science Institute, Tokyo institute of Technology, Japan
Tip-enhanced Resonant Raman Scattering Study of Monolayer Tungsten Disulfide
Chanwoo Lee1,2, Byeong Geun Jeong1,2, Seok Joon Yun1,2, Young Hee Lee1,2,3, and Mun Seok Jeong1,2,
1Department of Energy Science, Sungkyunkwan University, South Korea, 2Center for Integrated Nanostructure
Physics (CINAP), Institute for Basic Science (IBS), South Korea, 3Department of Physics, Sungkyunkwan University,
South Korea
On Determining the Quantum Efficiency of Emitters Coupled to Plasmonic Antennae
H.-W. Liu1, K. Matsuzaki1, S. Götzinger2,1 and V. Sandoghdar1,2, 1Max Planck Institute for the Science of Light,
Germany, 2Friedrich Alexander University of Erlangen-Nürnberg, Germany
Fibered Nanoscale Imaging of Single Infrared Quantum Dot using Broadband Double Resonance
Bowtie Nano-aperture Antenna
Z. Xie, J-M. Merolla, M.Suarez, and T. Grosjean, FEMTO-ST Institute, University of Bourgogne/Franche-Comté,
France
Non-kirchhoff Feature of Nanogap Revealed by Oblique Illumination Experiment: Surface-currentdominated Gap Field
Hyosim Yang1, Dukhyung Lee1, Joonyeon Kim1, Taehee Kang1, Jae Sung Ahn2 and Dai-Sik Kim1, 1Department of
Physics and Astronomy and Center for Atom Scale Electromagnetism, Seoul National University, South Korea,
2Medical Photonics Research Center, Korea Photonics Technology Institute, South Korea
Ultra Narrow Gap Antennas
K. Braun1, F. Laible2, O. Hauler1, A. J. Meixner1, and M. Fleischer2, 1Institute of Physical and Theoretical Chemistry,
University of Tuebingen, and LISA+, Germany, 2Institute for Applied Physics, University of Tuebingen, Germany
Influence of the Gap Morphology on the Optical Properties of Plasmonic Antennas
J. F. Herrmann, S. Bisping, and C. Höppener, NanoBioPhotonics Group, Institute of Physics, University of Münster,
Germany
Modeling Atomic Scale Features Indicates High Resolution in TERS
S. Trautmann1, I. Götz1, A. Undisz3, H. Schneidewind1, J. Dellith1, M. Rettenmayr3, J. Aizpurua4, and V. Deckert1,2,
1Leibniz Institute of Photonic Technology, Germany, 2Institute of Physical Chemistry and Abbe Center of Photonics,
Friedrich Schiller University, Germany, 3Otto Schott Institute of Materials Research, Friedrich Schiller University,
Germany, 4Centro de Física de Materiales, Centro Mixto CSIC-UPV/EHU and Donostia International Physics Center
(DIPC), Spain
Second Harmonic Generation in the Interaction of Laser with a Linear Array of Interacting Metallic
Nanoprticles
N. Sepehri Javan, A. Farhumand, H. Mohammadzade, and A. Kheirandish, Physics Department, Basic Sciences
Faculty, University of Mohaghegh Ardabili, Iran
Second Order Nonlinear Optical Responses of Au Nanorods/NLO Polymer/Ag Films at LSP Resonances
D. Ishii, K. Miyabayashi, A. Ono, Y. Kawata, and A. Sugita, Faculty of engineering ,Shizuoka University, Japan
Second-order Nonlinearities of 1D Arrays of Au Nanorods
S. Nihashi, A. Ono, Y. Kawata, and A. Sugita, Faculty of engineering, Shizuoka University, Japan
Enhanced Second Order Nonlinearities of NLO Polymer-coated Au Nanorods at LSP Resonance
T. Matsui, A. Ono, Y. Kawata, and A. Sugita, Faculty of engineering, Shizuoka University, Japan
Ultrafast Nano-imaging of the Photoinduced Phase Transition Dynamics in VO2
S.A. Dönges1, O. Khatib1, B.T. O’Callahan1, J.M. Atkin2, and M. B. Raschke1, 1Department of Physics, Department of
Chemistry, and JILA, University of Colorado, USA, 2Department of Chemistry, University of North Carolina, USA
Nonlinear Plasmonic Sensing with Graphene Nanoislands
Renwen Yu1, Joel D. Cox1 and F. Javier García de Abajo1,2, 1ICFO-Institut de Ciències Fotòniques, The Barcelona
Institute of Science and Technology, Spain, 2ICREA-Institució Catalana de Recerca i Estudis Avançats, Spain
We-14P-36
We-14P-37
We-14P-38
We-14P-39
We-14P-40
We-14P-41
We-14P-42
We-14P-43
We-14P-44
We-14P-45
We-14P-46
We-14P-47
We-14P-48
We-14P-49
Electrical Detection of Graphene Plasmons
Renwen Yu1, and F. Javier García de Abajo1,2, 1ICFO-Institut de Ciències Fotòniques, The Barcelona Institute of
Science and Technology, Spain, 2ICREA-Institució Catalana de Recerca i Estudis Avançats, Spain
Enhanced and Tunable Magneto-optics via Fano Lattice Surface Modes in Arrays of Anisotropic
Magnetic Nanoantennas
L. Bergamini1,2, N. Maccaferri3, M. Pancaldi3, M. K. Schmidt2, M. Kataja4, S. van Dijken4, N. Zabala1,2, J. Aizpurua2,
and P. Vavassori3,5, 1Department of Electricity and Electronics, UPV/EHU, Spain, 2CFM, CSIC-UPV/EHU and DIPC,
Spain, 3CIC nanoGUNE, Spain, 4Department of Applied Physics, Aalto University School of Science, Finland ,
5Ikerbasque, Basque Foundation for Science, Spain
Phase-change and Plasmonic Manipualtion in VO2 Nanosquare Arrays
Hiroaki Matsui1, Ya-Lun Ho1, Teruo Kanki2 , Hidekazu Tanaka2, Jean-Jacques Delaunay3, and Hitoshi Tabata1,
1The University of Tokyo, Japan, 2ISIR-Sanken, Osaka University, Japan
High-efficient THz-TDS System using Laser Chaos and Super Focusing with Metal V Grooved Wave
Guide
Manatu Oi1, Kazuyuki Iwao1, Yusuke Akamine1, Daiki Inoue1, Naoya Sakaue1, Takuro Shirasaki1, Siori Goda1,
Fumiyoshi Kuwashima1, Masahiko Tani1 , Kazuki Kurihara2, Koji Yamamoto1, Ken Nagashima3, Masanori
Hangyo4, 1Fukui Univ. of Technology, Research Center for Development of Far-Infrared Region, 2Faculty of
Education and Regional Studies Univ. of Fukui, 3Setsunan Univ., 4Institute of Laser Engineering Osaka Univ.
Nanoimaging of Fabry-Perot Sheet and Edge Plasmonic Modes in Circular and Rectangular Graphene
Nanoresonators
E. Yoxall1, M. Schnell1, A. Nikitin1, O. Txoperena1, A. Woessner2, M. B. Lundeberg2, F. Casanova1,4, L. E. Hueso1,4, F.
H. L. Koppens2, and R. Hillenbrand3,4, 1CIC nanoGUNE, Spain, 2ICFO-Institut de Ciéncies Fotòniques, Spain, 3CIC
NanoGUNE and EHU/UPV, Spain, 4IKERBASQUE, Basque Foundation for Science, Spain
Observation of Surface Plasmon Propagation in Crystalline Silver Nanowire
Y. Hayashi1 and A. Ono2, 1Graduate school of integrated Science and Technology, Shizuoka University, Japan,
2Research Institute of Electronics, Shizuoka University, Japan
Structure- and Polarization-dependent Peculiarities of Localized Plasmon Resonances in Thin 2D Noble
Metal-dielectric Layers
A. N. Shaymanov1,2, K. M. Khabarov1,5, A. M. Merzlikin1,4,5, A. V. Baryshev1,3,5, 1All-Russia Research Institute of
Automatics, Russia, 2Lomonosov Moscow State University, Russia, 3Ioffe Physical-Technical Institute, Russia ,
4Institute for Theoretical and Applied Electromagnetics, Russia , 5Moscow Institute of Physics and Technology,
Russia
Absorption Spectroscopy of Individual Nanomaterials by Surface Plasmon Resonance
Youngbum Kim1,2, Shrawan Roy1,2, Hyungsuk Hwang3, Jubok Lee1,2, Yongjun Lee1,2, Min Su Kim1, and
Jeongyong Kim1,2, 1Center for Integrated Nanostructure Physics, Institute for Basic Science, Sungkyunkwan
University, South Korea, 2Department of Energy Science, Sungkyunkwan University, South Korea, 3Department of
Physics, Korea University, South Korea
Tunable Optomagnets in Diamagnetic Thin Metal Layers and Plasmonic Nano-Antennas
Y. Lefier1, U. Fischer2, and T. Grosjean1, 1Femto-ST Institute, France , 2Interface physics group, WWU, Germany
Wide Range Active Plasmon Filter by Tapered Nanoslit
Kenzo Yamaguchi1, Terumasa Kagamihara1, and Masamitsu Fujii2, 1Department of Advanced Materials Science,
Faculty of Engineering, Kagawa University, Japan, 2Toba, National College of Maritime Technology, Japan
Electrically Driven Mechanical Gap Plasmon Waveguide
Kenzo Yamaguchi1, Tomoya Ohtsu1, and Masamitsu Fujii2, 1Department of Advanced Materials Science, Faculty of
Engineering, Kagawa University, Japan, 2Toba National College of Maritime Technology, Japan
Particle Plasmon Tomography
A. Trügler1, A. Hörl1, G. Haberfehlner2, F. P. Schmidt1,2, G. Kothleitner2, U. Hohenester1, 1Institute of Physics,
University of Graz, Austria, 2Graz Centre for Electron Microscopy & Institute for Electron Microscopy and
Nanoanalysis, Graz University of Technology, Austria
Plasmon Resonances of Mid-IR Antennas on an Absorbing Substrate: Optimization of Localized
Absorption Enhancement
L. Břínek1,2, T. Šamořil1,2, O. Tomanec1,2, M. Hrtoň1,2, R. Kalousek1,2, J. Spousta1,2, P. Dub1,2, P. Varga1,2, and T.
Šikola1,2, 1Institute of Physical Engineering, Brno University of Technology, Czech Republic, 2Central European
Institute of Technology, Brno University of Technology, Czech Republic
Surface Enhanced Raman Scattering from Gold Nanowires Excited with Circularly Polarized Light
A. Foti1,2, C. D’Andrea1,3, B. Fazio1, E. Messina1, O. M. Maragò1, M. C. Giordano4, C. Martella4, D. Chiappe4,5, A.
Toma4,6, F. Buatier de Mongeot4, and P. G. Gucciardi1, 1CNR IPCF Istituto per i Processi Chimico-Fisici, Italy, 2Scuola
di Dottorato di Ricerca in Fisica, University of Messina, Italy , 3Matis IMM – CNR, Italy, 4Dipartimento di Fisica, and
CNISM, University of Genova, Italy , 5Laboratorio MDM CNR-IMM, Italy, 6Istituto Italiano di Tecnologia, Italy
We-14P-50
We-14P-52
We-14P-53
We-14P-54
We-14P-55
We-14P-56
We-14P-57
We-14P-58
We-14P-59
We-14P-60
We-14P-61
We-14P-62
We-14P-63
We-14P-64
We-14P-65
Ultra-confined Acoustic THz Graphene Plasmons Revealed by Photocurrent Nanoscopy
Pablo Alonso-González1,2, Alexey Y. Nikitin1,3, Yuanda Gao4, Achim Woessner5, Mark B. Lundeberg5, Alessandro
Principi6, Nicolo Forcellini7, Wenjing Yan1, Saül Vélez1, Andreas. J. Huber8, Kenji Watanabe9, Takashi Taniguchi9,
Luis E. Hueso1,3, Marco Polini10, James Hone4, Frank H. L. Koppens5,11, and Rainer Hillenbrand3,12, 1CIC
nanoGUNE, Spain, 2Departmento de Fisica, Universidad de Oviedo, Spain, 3IKERBASQUE, Basque Foundation for
Science, Spain, 4Department of Mechanical Engineering, Columbia University, USA, 5ICFO-Institut de Ciencies
Fotoniques, The Barcelona Institute of Science and Technology, Spain, 6Radboud University, Institute for Molecules
and Materials, The Netherlands, 7Department of Physics, Imperial College London, UK, 8Neaspec GmbH, Germany,
9National Institute for Materials Science, Japan, 10Istituto Italiano di Tecnologia, Graphene labs, Italy, 11ICRSA Tecnologia, Graphene labs, Italy, 12CIC NanoGUNE and EHU/UPV, Spain
Plasmonic Catalysis Monitored by SERS and TERS
Zhenglong Zhang1,2 and Volker Deckert1,3, 1Leibniz Institute of Photonic Technology, Germany, 2School of Physics
and Information Technology, Shaanxi Normal University, China, 3Institute of Physical Chemistry and Abbe Center of
Photonics, Friedrich-Schiller University Jena, Germany
Asymmetric Plasmonic Waveguides as Platform for Coupling between Surface Plasmons and
Propagating Waves
S. Menabde, V. Shaidiuk, and N. Park, Photonic Systems Laboratory, Dept. of ECE, Seoul National University, South
Korea
Smith-Purcell Radiation Emission by Non-Periodic Array Nanostructures
J. R. M. Saavedra1, D. Castells-Graells1, and F. Javier García de Abajo1,2, 1ICFO Institut de Ciencies Fotoniques, The
Barcelona Institute of Science and Technology, Spain, 2ICREA-Institució Catalana de Recerca i Estudis Avançats,
Spain
Near-field Optical Imaging of Graphene Plasmon on Silicon Carbon
C. Yang, R. Chen, and J. Chen, Institute of Physics, Chinese Academic of Science, China
Development of Plasmonic Bragg Gratings with a Trench Plasmonic Waveguide
H. Okamoto1, K. Kusaka1, K. Yamaguchi2, T. Kagamihara2, M. Haraguchi3, and T. Okamoto3, 1National Institute of
Technology, Anan College, Japan, 2Department of Advanced Materials Science, Faculty of Engineering, Kagawa
University, Japan, 3Department of Optical Science and Technology, Faculty of Engineering, The University of
Tokushima, Japan
Transmission Spectrum of Anti-symmetric Mach-Zehnder Interferometer in Metal-insulator-metal
Plasmonic Waveguide
S. Kamada, T. Okamoto, and M. Haraguchi, Tokushima University, Japan
Long-lifetime Plasmonic Bubble Generated by Photothermal Effect
Yushi Nishimura1, Kazuki Ueda1, Yojiro Yamamoto3, Shiho Tokonami2, and Takuya Iida1, 1Graduate School of
Science, Osaka Prefecture University, Japan, 2Graduate School of Engineering, Osaka Prefecture University, Japan,
3GreenChem. Inc., Japan
Dispersion Relation, Propagation Length and Mode Conversion of Surface Plasmon Polaritons in Silver
Double-nanowire Systems
Shulin Sun1, Hung-Ting Chen2, Wei-Jin Zheng2, and Guang-Yu Guo2,3, 1Shanghai Engineering Research Center of
Ultra-Precision Optical Manufacturing and Green Photonics, Fudan University, China, 2Department of Physics,
National Taiwan University, Taiwan, 3Physics Division, National Center for Theoretical Sciences, Taiwan
Quantum Plasmonics with Finite Carbon Nanotubes
S. de Vega Esteban1, J. D. Cox1, and F. J. García de Abajo1,2, 1ICFO – Institut de Ciencies Fotoniques, The Barcelona
Institute of Science and Technology, Spain, 2ICREA – Institució Catalana de Recerca i Estudis Avançats, Spain
Spatially Resolved Evaluation of Surface Plasmon Enhanced Photoluminescence of InGaN/GaN
Quantum Wells
K. Tateishi1, P. Wang1, S. Ryuzaki1, M. Funato2, Y. Kawakami2, K. Okamoto1, and K. Tamada1, 1Institute for
Materials Chemistry and Engineering, Kyushu University, Japan, 2Department of Electronic Science and
Engineering, Kyoto University, Japan
Extending the Working Distance of Campanile Tips by a Multilayer Plasmonic Superlens
Kaiyuan Yao1,2, Arthur Montazeri1,3, John K.D. Clark3, Nazir P. Kherani3,4, and P. James Schuck1, 1Molecular
Foundry, Materials Science Division, Lawrence Berkeley National Lab, USA, 2Department of Mechanical
Engineering, UC Berkeley, USA, 3Department of Electrical & Computer Engineering, University of Toronto, USA,
4Department of Materials Science & Engineering, University of Toronto, USA
Complete Analysis of Plasmon Transmission through Top-down Fabricated Monocrystalline Nanowires
E. Krauss1, P. Geisler1, G. Razinskas1 & B. Hecht1,2, 1Nano-Optics & Bio-Photonics Group, Experimentelle Physik 5,
Physikalisches Institut, Universität Würzburg, Germany, 2Röntgen Research Center for Complex Material Systems
(RCCM), Germany
Experimental Realization of Surface Plasmon Laser
F. Benimetskiy1,3 , T. Basova2 , R. Parkhomenko2 , A. Kuchyanov1, and A. Plekhanov1, 1Institute of Automation and
Electrometry, Russia, 2Institute of Inorganic Chemistry, Russia, 3Novosibirsk State University, Russia
Nanolayer Polarizability Mapping Based on Near-field Edge Fringes
V. Babicheva, V. Yakovlev, S. Gamage, M. Stockman, and Y. Abate, Center for Nano-Optics, Georgia State
University, USA
We-14P-66
We-14P-67
We-14P-68
We-14P-70
We-14P-71
We-14P-72
We-14P-73
We-14P-74
We-14P-75
We-14P-76
We-14P-77
We-14P-78
We-14P-79
We-14P-80
We-14P-81
We-14P-82
We-14P-83
Strong Coupling of Single Nanocrystals with Plasmonic Resonators at Ambient Conditions
H. Groß1, J. Hamm2, T. Tufarelli2, O. Hess2 and B. Hecht1, 1Nano-Optics and Biophotonics Group, Experimentelle
Physik 5 Universität Würzburg, Germany, 2Blackett Laboratory, Department of Physics, Imperial College London, UK
Nano-optics of Molecular-shunted Plasmonic Nanojunctions
Felix Benz1, Christos Tserkezis3, Lars O. Herrmann1, Bart de Nijs1, Laurynas Pukenas2, Stephen D. Evans2, Javier
Aizpurua3, Jeremy J. Baumberg1, 1NanoPhotonics Centre, Cavendish Laboratory, Department of Physics, JJ
Thompson Ave, University of Cambridge, UK, 2Molecular and Nanoscale Physics, School of Physics and Astronomy,
University of Leeds, UK, 3Donostia International Physics Center (DIPC) and Centro de Física de Materiales, Centro
Mixto CSIC-UPV/EHU, Spain
Specially Fabricated Optical Fiber Nanoprobe with Enhanced Non-diffracting Beam for Near-field
Sensing Applications
Rashmi A. Minz1,2, Kaushal Vairagi1, Sarabjeet Saini2, Aditi Chopra2, Samir K Mondal2, 1Academy of Scientific and
Innovative Research, India, 2Central Scientific Instruments Organisation, India
Development of High Raman Enhancement Effect of Gold and Silver Nanomatrials for Optical Contrast
and Biological Impact Study
Yu-Hao Chao1,2, Wen-Chuan Kuo1, Chih-Chia Huang2, 1Institute of Biophotonics, National Yang-Ming University,
Taiwan, 2Department of Photonics, Center for Micro/Nano Science and Technology and Advanced Optoelectronic
Technology Center, National Cheng Kung University, Taiwan
High Resolution Plasmonic Near-field Probe
R. H. Jiang1,2, J. Y. Chu2, H. J. Chou3, C. Chen3, and T. J. Yen1, 1Department of Materials Science and Engineering,
National Tsing Hua university, R.O.C., 2Department of Material and Chemical Research laboratories, Industrial
technology and research institute, R.O.C., 3Research Center for Applied Sciences, Academia Sinica, R.O.C.
Ostwald Ripening of Evaporated Silver Films in Various Solutions
T. Yoshikawa, S. Nakae, and M. Futamata, Saitama University, Japan
Quantitative Phase Imaging of Plasmonic Nanoantennas
J. Babocký1, F. Ligmajer1,2, R. Kalousek1,2, A. Křížová1,2, L. Kejík2, M. Hrtoň1,2, P. Dvořák1,2, M. Týč1,2, V. Křápek1,2, R.
Chmelík1,2, and T. Šikola1,2, 1Central European Institute of Technology, Brno University of Technology, Czech
Republic, 2Institute of Physical Engineering, Brno University of Technology, Czech Republic
Deep-subwavelength Polarization Resolved Fano-imaging
F. Intonti1, F. La China1, N. Caselli1, F. Lotti1, F. Sarti1, A. Vinattieri1, N. Vico Triviño2, J.-F. Carlin2, R. Butté2,
N.Grandjean2, W. Zhang3, L. Vivien3, and M. Gurioli1, 1LENS and Department of Physics, University of Florence,
Italy, 2Institute of Condensed Matter Physics, EPFL, Switzerland, 3Inst. Elect. Fondamentale (IEF), Univ Paris Sud,
CNRS UMR 8622, France
Imaging of 3D Cellular Spheroids by Trimodalities CL-NIR-MRI
Doan Thi Kim Dung1, Shoichiro Fukushima1, Taichi Furukawa2, Hirohiko Niioka1, Yuki Mori3,4, Yoshichika
Yoshioka3,4, Mamoru Hashimoto1, and Jun Miyake1, 1Grad. School of Engineering Science, Osaka University,
Japan, 2Institute for NanoScience Design, Osaka University, Japan, 3WPI Immunology Frontier Research Center (WPI
IFReC), Osaka University, Japan, 4Center for Information and Neural Networks (CiNet), National Institute of
Information and Communications Technology (NICT) and Osaka University, Japan
High Resolution Imaging of Artificial Membrane Protein by Direct Electron-beam Excitation Assisted
Optical Microscope
G. Ito1, R. Tero2, W. Inami1,3, and Y. Kawata1,3, 1Graduate School of Integrated Science and Technology, Shizuoka
University, Japan, 2Electronics-Inspired Interdisciplinary Research Institute Toyohashi University of Technology,
Japan, 3Research Institute of Electronics Shizuoka University, Japan
Characterizing Next-generation Direct-Imprinted Campanile Tips
T. Darlington1, N. J. Borys1, G. Calafiore2, A. Koshelev2, A. Weber-Bargioni1, S. Babin2, K. Munechika2, S. Cabrini1,
P. J. Schuck1, 1The Molecular Foundry, Lawrence Berkeley National Laboratory, USA, 2aBeam Technologies, USA
High-resolution Observation of Ultrafine Bubble by Direct Electron-beam Excitation Assisted Optical
Microscope
N. Hara1, M. Fukuta2, W. Inami2,3 Y. Kawata2,3, H. Kobayashi4, S. Maeda4, and T. Fujita4, 1Graduate School of
Science and Technology, Shizuoka University, Japan, 2Graduate School of Engineering, Shizuoka University, Japan,
3Research Institution of Electronics, Shizuoka University, Japan, 4IDEC CORPORATION, Japan
Detection of Optical Near-field Helicity with a Phase Sensitive SNOM/NSOM System
Lin Sun, Xiaoyu Wu, Benfeng Bai, Qiaofeng Tan, and Jia Wang, State Key Laboratory of Precision Measurement
Technology and Instruments, Department of Precision Instruments, Tsinghua University, China
Active Nonlinear Meta-devices Based on Optical-thermodynamic Effects
Sungjun In and Namkyoo Park, Photonic Systems Laboratory, Dept. of ECE, Seoul National University, South Korea
Transparent Far-infrared Shielding Metasurface with Randomly Dispersed Silver Nanorings
H. Yoshizawa, H. Yasuda, T. Tani, and M. Naya, FUJIFILM Corp. Frontier Core-Technology Laboratories, Japan
Unidirectional Light Transmission by Two-layer Nanostructures Interacted via Optical Near-fields
S. Ishii1, J.–F. Motte2, A. Drezet2, S. Huant2, H. Hori3, and M. Naruse4, 1National Institute for Materials Science,
Japan, 2Institut Néel, CNRS and Université Joseph Fourier, France, 3University of Yamanashi, Japan, 4National
Institute of Information and Communications Technology, Japan
Metamaterials Based Sky Radiator and Auxiliary Heat Mirror
T. Liu1, H. Hatada1, and J. Takahara1,2, 1Graduate School of Engineering, Osaka University, Japan, 2Photonics
Advanced Research Center, Osaka University, Japan
We-14P-84
We-14P-85
We-14P-86
We-14P-87
We-14P-88
We-14P-89
We-14P-90
We-14P-91
We-14P-92
We-14P-93
We-14P-94
We-14P-95
We-14P-96
We-14P-97
We-14P-98
We-14P-99
We-14P-100
Laser Microfabrication and Optical Properties of Metallic Spiral-based Perfect Absorber Metamaterial
for Mid-infrared Frequencies
I. A. Faniayeu1,2 and V. Mizeikis1, 1Research Institute of Electronics, Shizuoka University, Japan, 2Department of
General Physics, Francisk Skorina Gomel State University, Belarus
Nanoparticle Dispersed Liquid Crystal Metamaterials as Supporting Media of Dyakonov Surface Waves
T. Matsui1,2, 1Department of Electrical and Electronic Engineering, Graduate School of Engineering, Mie University,
Japan, 2The Center of Ultimate Technology on Nano-Electronics, Mie University, Japan
Large Area Fabrication of Stacked Optical Magnetic Metamaterial by Nanosphere Lithography
Toshihiro Okamoto, K. Tanikawa, N. Tamura, and M. Haraguchi, Department of Optical Science, Division of
Science and Technology, Tokushima University, Japan
A Study of Temperature Dependence for a Passive Near-field Microscope with Improved Signal-toNoise Ratio
Kuan-Ting Lin, Susumu Komiyama, Sunmi Kim, Ken-ichi Kawamura, and Yusuke Kajihara, The University of
Tokyo, Japan
Nanoscale Chemical Identification by Infrared Near-field Spectroscopy (nano-FTIR)
S. Mastel1, A. A. Govyadinov1, T. V. A. G. de Oliveira1, I. Amenabar1 and R. Hillenbrand1,2, 1CIC nanoGUNE, Spain,
2IKERBASQUE, Basque Foundation of Science, Spain
Transmission Properties of Metallic Cut-wire Metamaterial Investigated by THz Time-domain
Spectroscopy
F. Toyoshima, M. Taniguchi, K. Okabe, F. Shimokawa, S. Nakanishi, and N. Tsurumachi, Faculty of Engineering,
Kagawa University, Japan
Probing Current-induced Evanescent Wave on Gold with a Passive Near-field Microscope
H. Nema1, K.-T. Lin1, S. Kim1, S. Komiyama2, and Y. Kajihara1 , 1Institute of Industrial Science, The University of
Tokyo, Japan, 2Department of Basic Science, The University of Tokyo, Japan
Far-IR s-SNOM with a Synchrotron Source
Hans A. Bechtel1, Michael C. Martin1, Omar Khatib2, Markus B. Raschke2, and G. L. Carr3,, 1Advanced Light Source,
Lawrence Berkeley National Laboratory, USA, 2University of Colorado at Boulder, USA, 3Photon Sciences,
Brookhaven National Laboratory, USA
Deep-UV Plasmonics of Indium
Y. Kumamoto1, A. Taguchi2, Y. Saito2, M. Honda3, and S. Kawata2, 1Department of Pathology and Cell Regulation,
Kyoto Prefectural University of Medicine, Kyoto, Japan, 2Department of Applied Physics, Osaka University, Japan,
3Department of Applied Physics, Nagoya Institute of Technology, Japan
UV-Visible Transmission through Nanohole Arrays in Aluminum and Magnesium
J. Mao1, Y. Wang2, K. Appusamy3, S. Guruswamy3, and S. Blair2, 1Department of Physics and Astronomy, University
of Utah, USA, 2Department of Electrical and Computer Engineering, University of Utah, USA, 3Department of
Chemistry, University of Utah, USA
Auto-fluorescence Enhancement of Biological Cells using Surface Plasmon Resonance in DeepUltraviolet
Taras Hanulia1, Masakazu Kikawada1, Atsushi Ono1,2, Wataru Inami1,2, and Yoshimasa Kawata1,2, 1Graduate
School of Science and Technology, Shizuoka University, Japan, 2Research Institute of Electronics, Shizuoka
University, Japan
Film-supporting Metal Grating with Perfect Optical Absorption for Hot Electron Generation
Z.Q Guan, W.Q. Wang, and H.X. Xu, Center for Nanoscience and Nanotechnology and School of Physics and
Technology, Wuhan University, Wuhan, People’s Republic of China
Rapid Bacterial Counting Method using Photothermal Effect
Yasuyuki Yamamoto1, Emi Shimizu2, Yushi Nishimura1, Shiho Tokonami2 and Takuya Iida1, 1Graduate School of
Science, Osaka Prefecture University, Japan, 2Graduate School of Engineering, Osaka Prefecture University, Japan
Optical Detection of Metallic Nanoparticles via Photothermal Assembling of Microparticles
Moe Miyai1, Yushi Nishimura1, Shiho Tokonami2, and Takuya Iida1, 1Graduate School of Science, Osaka Prefecture
University, Japan, 2Graduate School of Engineering, Osaka Prefecture University, Japan
Folic Acid-conjugated Auag Nanoparticles Combined Surface Enhanced Raman Spectroscopy for Rapid
Detection of Bladder Cancers in Urine
Yao-Tzu Yang1,2,3, Yi-Chun Chiu4, Chun-Hung Lin3, Mei-Yi Liao2, Chih-Chia Huang3, 1Department of Applied
Chemistry, National Pingtung University, Taiwan, 2Medical Laboratory Science and Biotechnology, National Cheng
Kung University, Taiwan, 3Department of Photonics, Center for Micro/Nano Science and Technology and Advanced
Optoelectronic Technology Center, National Cheng Kung University, Taiwan, 4Division of Urology, Department of
Surgery, Zhong Xiao Branch, Taipei City Hospital, Taiwan
Protein-protected Au Nanoclusters to Enhance the Singlet Oxygen Yields of Photosensitizer: the
Mechanism Investigation and Application in Photodynamic Therapy
Y. C. Wang and C. C. Huang, Department of photonics, National Cheng Kung University, Taiwan (R.O.C.)
Fe3O4-chlorophyllinnanocore-shell Structure Possessed Photon-assisted and Fenton-like Catalysis of
Environment Pollutants
Hsiu-Hsien Wen1,2, I-Wen Sun1, Mei-Yi Liao3, Chih-Chia Huang2, 1Department of Chemistry, National Cheng-Kung
University, Taiwan, 2Department of Photonics, Center for Micro/Nano Science and Technology and Advanced
Optoelectronic Technology Center, National Cheng Kung University, Taiwan , 3Department of Applied Chemistry,
National Pingtung University, Taiwan
We-14P-101
We-14P-102
We-14P-104
We-14P-105
We-14P-106
We-14P-107
Green Fabrication of Plasmonic Nanoparticle-paper as a Flexible Surface Enhanced Raman Scattering
Substrate
Chien-Wei Lee1,2, Mei-Yi Liao2, and Chih-Chia Huang1, 1Department of Photonics, Center for Micro/Nano Science
and Technology and Advanced Optoelectronic Technology Center, National Cheng Kung University, Taiwan,
2Department of Applied Chemistry, National Pingtung University, Taiwan
Development of Dual-function Optical Fe3O4 Nanoparticles: SERS Detection and Photothermal Therapy
of Cancers
Hao-Yu Chan1 and Chih-Chia Huang2, 1Department of Photonics, National Cheng Kung University, Taiwan ,
2Department of Photonics, Center for Micro/Nano Science and Technology and Advanced Optoelectronic
Technology Center, National Cheng Kung University, Taiwan
Green Synthesis of Gold-chlorophyll Nanoparticle for Targeted Optical Imaging and Photodynamic
Therapy of Bladder Cancer Cells
Tzu-Chi Huang and Mei-Yi Liao, Department of Applied Chemistry, National Pingtung University, Taiwan
Tea Polyphenols Supported Chloroauric Acid: Polyethylenimine Enhanced Blue Photoluminescence for
Application in Cancer Cell Target
Chia-Hung Wu and Chih-Chia Huang, Department of Photonics, Center for Micro/Nano Science and Technology
and Advanced Optoelectronic Technology Center, National Cheng Kung University, Taiwan
sSNOM for HAMR Characterization and Development
L. Otto1,2, S. Burgos1, S. Ren1, Ö. Süzer1, B. Stipe1, and A. Hammack1, 1HGST (Western Digital Corporation), USA,
2Department of Electrical and Computer Engineering, University of Minnesota, USA
Waveguide Coupling of Single Photons from a Solid State Emitter
Samuele Grandi, Claudio Polisseni, Kyle D. Major, Sebastien Boissier, Alex S. Clark, and Ed Hinds, Centre for Cold
Matter, Blackett Laboratory, Imperial College London, SW7 2AZ