Megawatt Exhibitors
2016 IEEE International Power Modulator
and High Voltage Conference
San Francisco, CA – July 5–9, 2016
http://www.ipmhvc.org/2016
Kilowatt Exhibitors
Pocket
Program
Sponsored By:
Watt Exhibitors
Technically Co-Sponsored By:
Stangenes Industries, Inc.
1: Stangenes Industries, Inc.
5S Components Inc.
2: 5S Components Inc.
JEMA Energy
3: JEMA Energy
Pulse Power Solutions LLC open 4: Pulse Power Solutions LLC
5: IEEE NPSS
Silicon Power Corporation
6: Silicon Power Corporation
Pulse Power & Measurement Ltd. Power & Measurement
7: Pulse
CalRamic
Technologies LLC Ltd.
Voltage Multipliers Inc. : open8: CalRamic Technologies LLC
: Spellman High Voltage
9: Voltage Multipliers Inc.
: L‐3 Applied Technologies, Inc. 10: open
: Scandinova
Systems AB
11: S pellman
High Voltage
: open
12: L -3 Applied Technologies, Inc.
: Lockheed Martin
13: S candinova Systems AB
: Kanthal‐Globar, Sandvik
14: open
Heating Technology USA
15: L ockheed Martin
: NWL Inc.
16: K
anthal-Globar, Sandvik
Heating Technology USA
17: N
WL Inc.
18: Dean Technology, Inc.
18: D
ean Technology, Inc.
19: Pearson Electronics
19: P
earson Electronics
20: Advanced Energy Inc
20:
A
dvanced Energy Inc.
21: General Atomics 21:
G
eneral Atomics
22: ITHPP
22:
I
THPP-Alcen
23: GMW Associates
23: G
MW Associates
24: R&K Company Limited
24: R
&K Company Limited
25: Barth Electronics, Inc.
26: Diversified Technologies Inc.
25: B
arth Electronics, Inc.
27: Behlke
Power Electronics LLC
26: D
iversified
Technologies Inc.
28: Eagle Harbor Technologies, Inc. 27: B
ehlke Power Electronics LLC
29: TDK‐Lambda Americas
28: E agle Harbor Technologies,
30: HVR Advanced Power Compone
Inc.
Inc.
29: T DK-Lambda Americas
T1:
30: H
Open
VR Advanced Power
T2: TREK, INC. Components, Inc.
T3: Tera Analysis Ltd T1: Teledyne Reynolds, Inc.
T4: R.E. Beverly III and Associates
T2: TREK, Inc.
T3: Tera Analysis Ltd.
T4: R.E. Beverly III and Associates
2016and
International
Power
Modulator
High Voltage
Conference
2016
International
Power
Modulator
and High Voltage Conference
2016and
International
Power
Modulator
High
Voltage
Conference
July
5 - 9, 2016
and High
Voltage
Conference
July
5 - 9, 2016
July
5 - 9, 2016
San
Francisco,
CA
July
5 - 9, 2016
San Francisco,
CA
San Francisco, CA
San Francisco, CA
Sponsored by:
Sponsored by:
Sponsored by:
Sponsored by:
Technical Co-Sponsored by:
WELCOME!
On behalf of the International Power Modulator and High
Voltage Conference (IPMHVC) Executive Committee and the
Conference and Technical Program Committees, we welcome
you to the 2016 IEEE IPMHVC. San Francisco is known for
its scenic beauty, cultural attractions, diverse communities,
and world-class cuisine. Measuring 49 square miles, this
walkable city includes landmarks like the Golden Gate Bridge,
cable cars, Alcatraz and the largest Chinatown in the United
States. The city has a colorful past, growing from a small
village to a major city nearly overnight as a result of the 1849
Gold Rush. The city is home to world-class theatre, opera,
symphony and ballet companies and often boasts premieres of
Broadway-bound plays and culture-changing performing arts.
San Francisco is one of America’s greatest dining cities. The
diverse cultural influences, proximity of the freshest
ingredients and competitive creativity of the chefs result in
unforgettable dining experiences throughout the city.
Originally established in 1875, the Palace was San Francisco’s
first premier luxury hotel and the largest in the world. The
four-diamond Palace Hotel is a member of The Luxury
Collection, a glittering ensemble of more than 100 of the
world’s finest hotels and resorts in more than 30 countries in
bustling cities and spectacular destinations around the world.
In 1909 the breathtaking Garden Court was unveiled. Crowned
by a 7 million dollar stained-glass dome and flanked by a
double row of massive Italian marble Ionic columns, The
Garden Court is legendary.
This year, a record number of abstracts was received. Over
320 abstracts were submitted to the technical topics of New
and Novel Applications of Power Modulators; Repetitive
Pulsed Power Systems, Repetitive Pulsed Magnetics,
Accelerators, Beams, High Power Microwaves, and High
Power Pulse Antennas; Power Modulator Configurations,
Systems, Diagnostics, and Applications in Vacuum and Low
Pressure; Solid State Power Modulators, Components,
Switches, and Systems; Opening, Closing, and Solid State
Switches; Lasers, X-Rays, EUV, Partial Discharge Testing,
and Other Emitters; Biological, Medical, and Environmental
Applications of Power Modulators; Electromagnetic
Launchers, High Current Systems, High Rep-Rate Systems,
Thermal Management, and Applications; Analytical Methods,
Modeling, and Simulation; Dielectrics, Insulation, and
Breakdown; High Voltage Design, Devices, Testing, and
Diagnostics; Power Electronics, Power Supplies, Prime
Power, Rotating Machines, and Energy Converters.
2
In addition to the main technical program, we will be offering
two short courses, two technical tours to SLAC National
Accelerator Laboratory, and will be holding a workshop:
“Optimizing RF Accelerator Klystron Modulator Design at the
(RF Power) System-Level.” In addition, a special invited talk
only session will be held to highlight topics of special interest
to the broad community. A Transactions on Dielectrics and
Electrical Insulation special issue will be published which will
contain significantly expanded and enhansed material from the
conference.
We are also excited to announce that we will be having a
record size industrial exhibition at the conference. We
encourage you to visit the booths and talk to the exhibitors. In
addition, we will be having a night out at the baseball game
featuring the San Francisco Giants versus the Colorado
Rockies.
The conference is fully sponsored by the IEEE Dielectrics and
Electrical Insulation Society and technically co-sponsored by
the IEEE Nuclear and Plasma Sciences Society. We gratefully
acknowledge the sponsorship from government, university,
and industry, and the outstanding support we have received
from our exhibitors. We would also like to express our sincere
gratitude to the entire Conference Organizing Committee for
all of their efforts and we extend our sincere thanks to all the
members of the Technical Program Committee for their hard
work in reviewing the abstract submissions and defining an
outstanding technical program. Finally, we thank all of the
presenters and attendees for contributing to the ongoing
success of this conference and we look forward to seeing you
in 2018.
Dr Mark Kemp
SLAC National Accelerator Laboratory
2016 IEEE IPMHVC General Chair
Dr Allen Garner
Purdue University
2016 IEEE IPMHVC Technical Chair
3
2016 IPMHVC COMMITTEE CHAIRS AND STAFF
General Conference Chair
Mark Kemp
SLAC National Accelerator Laboratory
Technical Program Chair
Allen Garner
Purdue University
Conference Treasurer
Andrew Benwell
SLAC National Accelerator Laboratory
Publications Chair
Peter Norgard
University of Missouri, Columbia
Publicity Chair
George Laity
Sandia National Laboratories
Exhibits Chair
Richard Ness
Ness Engineering
Professional Awards Chair
James Dickens
Texas Tech University
Student Awards Chair
Rob Saethre
Oak Ridge National Laboratory
Student Travel Grant Chair
Rob Saethre
Oak Ridge National Laboratory
Visa Assistance Chair
Tao Shao
Institute of Electrical Engineering, CAS
Short Course Chair
James Dickens
Texas Tech University
IEEE DEIS Meetings Chair
Resi Zarb
Qualtrol-Iris Power
Executive Committee Chair
Richard Ness
Ness Engineering
Mailing List Management
Matthew Aubuchon
General Atomics
4
Technical Tours
Tony Beukers
SLAC National Accelerator Laboratory
TECHNICAL PROGRAM COMMITTEE MEMBERS
Hidenori Akiyama
Kumamoto University
Ray Allen
Naval Research Laboratory
Plato Apergis
EMS Development Corporation
Matthew Aubuchon
General Atomics
Michael Baginski
General Atomics
Stephen Bayne
University of Buffalo
Kevin Burke
University at Buffalo
Craig Burkhart
SLAC National Accelerator Laboratory
Steve Calico
Lockheed Martin
Yang Cao
University of Connecticut
George Chen
University of Southampton
Isaac Cohen
University of Texas - Arlington
Randy Cooper
Cooper Consulting Services, Inc.
Randy Curry
University of Missouri
Dong Dai
South China University of Tech.
James Dickens
Texas Tech University
Matt Domonkos
Air Force Research Laboratory
Laurent Ducimetiere
CERN
Andrew Dunlop
Dynex Semiconductor
Douglas Eaton
ScandiNova Systems Inc.
Juan Elizondo
Sandia National Laboratories
Masoud Farzaneh
Université du Québec à Chicoutimi
Klaus Frank
University of Erlangen - Nuremberg
Nancy Frost
Krempel
Allen Garner
Purdue University
Michael Giesselmann
Texas Tech University
Steve Glover
Sandia National Laboratories
Stanislaw Gubanski
Chalmers University
Martin Gundersen
University of Southern California
John Harris
Air Force Research Laboratory
Werner Hartmann
Siemens
Frank Hegeler
Naval Research Laboratory
David Hemmert
HEM Technologies
5
Cameron Hettler
SARA
Shad Holt
Texas Tech University
Brett Huhman
Naval Research Laboratory
Marcus Iberler
Frankfurt University
Chunqi Jiang
Old Dominion University
Richard F. Johnson
JPA, Inc.
Nick Jordan
University of Michigan
Ravi Joshi
Texas Tech University
Mark Kemp
SLAC National Accelerator Laboratory
Juergen Kolb
INP Griefswald
John Krile
NSWC Dahlgren
George Laity
Sandia National Laboratories
Joshua Leckbee
Sandia National Laboratories
Ge Li
Institute of Plasma Physics, CAS
Kefu Liu
Fudan University
Michael Mazarakis
Sandia National Laboratories
Matthew McQuage
NSWC Dahlgren
Yasushi Minamitani
Yamagata University in Japan
Harry Moore
US Army - ARDEC
Sang Hoon Nam
KIRAMS
Bogdan Neculaes
GE Global Research
Richard Ness
Ness Engineering
Bucur Novac
Loughborough University
Lutfi Oksuz
Süleyman Demirel University
Dennis Okula
Ipswich Associates
Martin Paraliev
Paul Scherrer Institut
Alexander Pokryvailo
Spellman High Voltage Electronics
Sal Portillo
University of New Mexico
James Prager
Eagle Harbor Technologies
Luis Redondo
Lisbon Engineering Superior Institute
Scott Rice
Michigan State University
Jose Rossi
Plasma Laboratory at INPE
Hong-Je Ryoo
KERI
Rob Saethre
Oak Ridge National Lab
Dan Schweickart
Air Force Research Laboratory
Walter Sessions
Georgia Tech Research Institute
Tao Shao
Institute of Electrical Engineering, CAS
6
Alexander Sheets
Ivor Smith
Ian Smith
Claus Strowitzki
Taichi Sugai
Wilkin Tang
Igor Timoshkin
Kazuyuki Tohyama
Enis Tuncer
Agust Valfells
John Verboncoeur
Rene Vezinet
David Wetz
William White
Mark Wilson
Guangning Wu
Shu Xiao
Michael Yalandin
Hanwu Yang
Xiu Yao
Christopher Yeckel
Cheng Zhang
Guanjun Zhang
Peng Zhang
Kai Zhou
Tim Ziemba
Jennifer Zirnheld
Xiaobin Zou
Air Force Research Laboratory
Loughborough University
L-3 Applied Tehnologies
MLase AG
Nagaoka University of Technology
Air Force Research Laboratory
University of Strathclyde
Numazu National College
Texas Instruments
Reykjavik University
Michigan State University
CEA Gramat
University of Texas – Arlington
Sandia National Laboratories
University of Strathclyde
Southwest Jiaotong University
Old Dominion University
Ural Division, Former RAS
National University of Defense Tech.
University of Buffalo
Stangenes Industries
Institute of Electrical Engineering, CAS
Xi'an Jiaotong University
University of Michigan
G&W Electric Co
Eagle Harbor Technologies
University at Buffalo
Tsinghua University
7
SESSION CHAIRS
Plenary Session Chairs
Allen Garner
George Laity
Luis Redondo
Purdue University
Sandia National Laboratories
Lisbon Engineering Superior Institute
Oral Session Chairs
Ray Allen
Kevin Burke
Craig Burkhart
Matt Domonkos
Steve Glover
Nick Jordan
Michael Mazarakis
Dan Schweickart
Walter Sessions
Xiu Yao
Jennifer Zirnheld
Naval Research Laboratory
University at Buffalo
SLAC National Accelerator Laboratory
Air Force Research Laboratory
Sandia National Laboratories
University of Michigan
Sandia National Laboratories
Air Force Research Laboratory
Georgia Tech Research Institute
University of Buffalo
University at Buffalo
IPMHVC EXECUTIVE COMMITTEE
Richard Ness
Ness Engineering Inc.
Frank Hegeler
Naval Research Laboratory
Randy Cooper
Cooper Consulting Services
Michael Giesselmann
Texas Tech University
Werner Hartmann
Siemens
Mark Kemp
SLAC National Accelerator Laboratory
Harry Moore
U.S. Army RDECOM
Kristine Runge
Stangenes Industries Inc
Enis Tuncer
Texas Instruments
8
CONFERENCE SPONSORS AND SUPPORTERS
Exhibitors
Megawatt Sponsors:
Stangenes Industries Inc.
Silicon Power Corporation
CalRamic Technologies LLC
Voltage Multipliers Inc.
Dean Technology Inc.
General Atomics
ITHPP-Alcen
Behlke Power Electronics LLC
TDK-Lambda Americas Inc.
HVR Advanced Power Components
Kilowatt Sponsors:
5S Components, Inc.
Jema Energy SA
Pulse Power Solutions LLC
Pulse Power and Measurement (PPM)
Spellman High Voltage Electronics Corp
L-3 Applied Technologies, Inc.
Scandinova Systems AB
Lockheed Martin
Kanthal Globar - Sandvik Heating Technology
NWL, Inc.
Pearson Electronics Inc.
Advanced Energy
GMW Associates
R&K Company Limited
Barth Electronics Inc.
Diversified Technologies Inc.
Eagle Harbor Technologies Inc.
Watt Sponsors:
TREK, Inc.
Tera Analysis Ltd.
R. E. Beverly III and Associates
Teledyne Reynolds, Inc.
Government and University Sponsors
Office of Naval Research (ONR) Exhibitors
9
GENERAL INFORMATION
Onsite Conference Registration Desk
Regency Foyer, Palace Hotel, San Francisco, CA
Tuesday
5 July 2016
15:00 – 20:00
Wednesday
6 July 2016
08:00 – 17:30
Thursday
7 July 2016
08:00 – 17:30
Friday
8 July 2016
08:00 – 17:30
Exhibit Times
Grand Ballroom, Palace Hotel, San Francisco, CA
Exhibit Installation
Tuesday
12:00 – 17:30
Exhibits Open
Tuesday
Wednesday
Thursday
Friday
07:30 – 12:00
07:30 – 12:00
07:30 – 12:00
Exhibit Removal
Friday
18:00 – 20:00
13:30 – 17:30
13:30 – 17:30
15:30 – 17:30
Short Courses
Saturday, July 9, 2016, Palace Hotel, San Francisco, CA
Short Course I
Sea Cliff
08:00 – 12:30
Short Course II
Pacific Heights
08:00 – 12:30
Social Events
Welcome Reception
Grand Ballroom, Palace Hotel, San Francisco, CA
Tuesday
5 July 2016
18:00 – 20:00
Conference Awards Banquet
Thursday, July 7, 2016, Palace Hotel, San Francisco, CA
Reception
Grand Ballroom
18:30 – 19:30
Banquet
Gold Ballroom
19:30 – 21:00
10
Breakfast and Breaks (registered attendees only)
Grand Ballroom, Palace Hotel, San Francisco, CA
Wednesday, 6 July 2016 – Friday, 8 July, 2016
Continental Breakfast
07:30 – 08:18
Morning Break
09:30 – 10:00
Afternoon Break
15:00 – 15:30
11
2016 IEEE IPMHVC SCHEDULE-AT-A-GLANCE
Location: Palace Hotel, San Francisco, CA
(unless otherwise noted)
Tuesday, July 5, 2016
12:45 – 17:00
15:00 – 20:00
18:00 – 20:00
Technical Tour
SLAC National Accelerator Laboratory
Regency Foyer
Registration
Regency Foyer
Welcome reception
Grand Ballroom
Wednesday, July 6, 2016
07:30 – 08:15
08:15 – 09:30
09:30 – 10:00
10:00 – 12:00
10:00 – 12:00
12:00 – 13:30
13:30 – 15:00
13:30 – 15:00
13:30 – 15:00
15:00 – 15:30
15:30 – 17:30
Continental Breakfast (registrants only)
Grand Ballroom
Plenary 1
Ralston Ballroom
Break
Grand Ballroom
Oral Session 1
Dielectrics, Insulation, and Breakdown I
Ralston Ballroom
Oral Session 2
Accelerators, Beams, and Repetitive
Pulsed Power
Gold Ballroom
Lunch (on your own)
Poster Session 1A
Repetitive Pulsed Power, Dielectrics, Insulation, and Breakdown
Twin Peaks
Poster Session 1B
Dielectrics, Insulation, and Breakdown
Presidio
Poster Session 1C
Dielectrics, Insulation, and Breakdown
Marina
Break
Grand Ballroom
Oral Session 3
Opening, Closing, & Solid State Switches
Ralston Ballroom
12
15:30 – 17:30
19:00 – 22:00
Oral Session 4
High Voltage Devices, Design, Testing,
and Diagnostics
Gold Ballroom
Night Out at the Ballpark
SF Giants vs. Colorado Rockies
AT&T Ballpark
Thursday, July 7, 2016
07:30 – 08:15
08:15 – 09:30
09:30 – 10:00
10:00 – 12:00
10:00 – 12:00
12:00 – 13:30
13:30 – 15:00
13:30 – 15:00
13:30 – 15:00
15:00 – 15:30
15:30 – 17:30
15:30 – 17:30
18:30 – 19:30
19:30 – 21:00
Breakfast (registrants only)
Grand Ballroom
Plenary 2
Ralston Ballroom
Break
Grand Ballroom
Oral Session 5
Biomedical Applications of Power Modulators
Ralston Ballroom
Oral Session 6
Power Electronics and High Voltage
Gold Ballroom
Lunch (on your own)
Poster Session 2A
Power Electronics, Supplies, Prime Power,
Rotating Machines, Medical and Environmental Applications of Power Modulators
Twin Peaks
Poster Session 2B
Opening, Closing, & Solid-State Switches
Presidio
Poster Session 2C
Solid State Power Modulators, Components, Switches, and Systems
Marina
Break
Grand Ballroom
Oral Session 7
Super Invited Session
Ralston Ballroom
Accelerator Workshop
Pacific Heights
Reception
Grand Ballroom
Conference Awards Banquet
Gold Ballroom
13
Friday, July 8, 2016
07:30 – 08:15
08:15 – 09:30
09:30 – 10:00
10:00 – 12:00
10:00 – 12:00
12:00 – 13:30
13:30 – 15:00
13:30 – 15:00
13:30 – 15:00
15:00 – 15:30
15:30 – 17:30
15:30 – 17:30
Breakfast (registrants only)
Grand Ballroom
Plenary 3
Ralston Ballroom
Break
Grand Ballroom
Oral Session 9
High Power Microwaves
Ralston Ballroom
Oral Session 10
Dielectrics, Insulation, and Breakdown II
Gold Ballroom
Lunch (on your own)
Poster Session 3A
Plasma, Discharges, and Electromagnetic
Phenomena
Twin Peaks
Poster Session 3B
High Voltage Design, Devices, Testing,
and Diagnostics
Presidio
Poster Session 3C
High Voltage Design, Devices, Testing,
and Diagnostics
Marina
Break
Grand Ballroom
Oral Session 11
Plasma, Discharges, and Electromagnetic
Phenomena
Ralston Ballroom
Oral Session 12
Solid State Power Modulators, Components, and Systems
Gold Ballroom
Saturday, July 9, 2016
07:30 – 08:00
Breakfast for Short Course Attendees
Sunset Court
14
08:00 – 12:00
08:00 – 12:00
12:30 – 17:00
Short Course 1
Solid State Pulsed Power and Civil
Applications
Professor Luis Redondo
Lisbon Engineering Superior Institute
Sea Cliff
Short Course 2
Fast Transient Sensors
Dr. Bukur Novac
Loughborough University
Pacific Heights
Technical Tour
SLAC National Accelerator Laboratory
Regency Foyer
15
EXHIBITOR BOOTHS
Megawatt Sponsors
Booth #1: Stangenes Industries Inc.
1052 East Meadow Circle
Palo Alto, CA 94303
USA
650-493-0814
www.stangenes.com
For over 40 years, Stangenes Industries has been
manufacturing critical high voltage systems and
electromagnetic components for government, industry, and
research. As an OEM supplier to major medical and industrial
equipment manufacturers, we have developed a reputation for
quality and reliability at globally competitive prices. The
foremost government and institutional particle accelerator
facilities and research laboratories around the world rely on
Stangenes Industries for innovation and excellence.
Contact: Paul Holen
pholen@stangenes.com
Booth #6: Silicon Power Corporation
275 Great Valley Parkway
Malvern, PA 19355
610-407-4706
www.siliconpower.com
Silicon Power Corporation (SPCO), founded in 1994, is a
globally recognized solutions provider for the design, testing,
and manufacturing of high-power semiconductor devices,
high-power power modules and, high-power utility-applicable
switchgear systems. SPCO has achieved a history of
successful partnerships with university, industrial and
governmental entities to design, test and deliver scalable
solutions to meet clients’ ever-changing complex
requirements. SPCO has two Power Business Segments.
Applied Pulse Power® provides high-voltage high-current
pulsed-power engineering services, integrated system design
and fabrication, plasma source and ion diode design &
analysis, and modular switches operating at voltages up to
80kV, currents up to 60kA and dI/dt up to 200 kA/μs. Innova
Macro-Processor© provides modular switchgear-based
16
solutions to support seamless integration of electrical energy
generated from variable renewable energy resources;
compliant to all current and voltage classes.
Contact: Howard Sanders
Howard_Sanders@SiliconPower.com
Booth #8: CalRamic Technologies LLC
5462 Louie Lane
Reno, Nevada 89511
www.calramic.com
CalRamic Technologies LLC offers a variety of high-voltage
ceramic capacitors for multiple applications to suit your needs.
We are a U.S. based manufacturing facility dedicated to high
quality ceramic capacitors. Radial leaded, surface mount, disc
capacitors, and custom configurations are available. HIghquality materials provide superior reliability and performance
for your application. In addition, as an ISO9001 verified
company, stringent manufacturing principles are followed for
year-after year reliability. Applications range from below
ground analytical tools geothermal/geophysical to above
ground commercial, and military power supplies, medical
power supplies, and X-ray systems. We can offer same day
shipping from stock, and deliveries of 6-10 week depending
on product type.
Contact: Jeff M. Day
jday@calramic.com
Booth #9: Voltage Multipliers Inc.
8711 W Roosevelt Ave
Visalia, CA 93277
www.voltagemultipliers.com
Founded in 1980 VMI designs and produces high voltage
diodes, optocouplers, power supplies, and assemblies, using
the latest technology and state-of-the-art equipment. Our datadriven manufacturing practices, dedicated teams, and reliable
processes come together to make the most reliable products
available on the market. For more than 35 years VMI has
provided excellent customer service. VMI delivers custom
solutions and high reliability products to our customers. We
work with you and for you! ISO9001:2008 certified.
Contact: Karen Spano
Kspano@voltagemultipliers.com
17
Booth #18: Dean Technology Inc.
P.O. Box 700968
Dallas, TX 75370
USA
972-248-7691
www.deantechnology.com
Dean Technology, Inc. specializes in the manufacture,
distribution and support of high voltage components,
assemblies and power supplies. Its three main product lines
include HV Component Associates (HVCA), CKE, and High
Voltage Power Solutions (HVPSI). The HVCA line of
products centers on high voltage diodes, rectifiers, bridge
rectifiers, ceramic disk capacitors, and custom assemblies for
specific applications. CKE products are a leading line of high
voltage and high power silicon rectifiers, MOVs, selenium
suppressors, silicon carbide varistors, as well as custom
assemblies. The HVPSI product line includes high voltage
power supplies, multipliers and test equipment. Dean
Technology’s full family of products provides complete
coverage of high voltage and high current solutions for any
application.
Contact: Larry Cagle
LCagle@hvca.com Or info@deantechnology.com
Booth #21: General Atomics
16969 Mesamint St.
San Diego, CA 92127
USA
www.ga.com
General Atomics (GA) is a globally recognized leader in the
design and manufacture of innovative electromagnetic and
electric power solutions. Our advanced high voltage capacitors
for DC, pulsed, high frequency AC, and specialized system
applications deliver the high energy density and superior
reliability required for defense, research, industrial, and
commercial systems worldwide. Our depth of engineering and
design expertise allows us to customize products to meet a
wide range of voltage and capacitance specifications. Every
capacitor is manufactured and tested at GA’s state-of-the-art
facility in the U.S., providing customers with a convenient,
18
single source solution to support the most challenging
application requirements.
Contact: Lauri Paul
Lauri.Paul@ga.com
Booth #22: ITHPP-Alcen
Hameau de Drele
46500 Thegra
France
http://www.ithpp-alcen.com/en
ITHPP designs, develops, manufactures, tests and operates
High Pulsed Power and High Power Microwave systems. The
potential applications for these technologies are numerous.
Although defense applications are historically the drivers for
technology development, recent scientific conferences are
filled with exciting civilian applications which are currently
under development in many different laboratories and
companies. Based on the customer’s specifications, ITHPP
designs and manufactures installations which are generally
very innovative and often used for scientific research. These
projects are regularly presented in international scientific
publications. Furthermore, ITHPP has developed other
industrial activities such as packaging sterilization for the
food, pharmacy and cosmetics industry and crushing/drilling
rocks for oil and mining players. The competences of ITHPP
personnel are very broad, including in particular plasma
physics, electromagnetism and power electronics.
Contact: Christophe Goepfert
cgoepfert@ithpp-alcen.fr
Booth #27: Behlke Power Electronics LLC
5 Alexander Road
Billerica MA 01821
USA
978-362-3118
www.behlke.com
BEHLKE POWER ELECTRONICS, has for over 30 years,
been the worldwide leader in the design and manufacture of
reliable fast high voltage solid-state switches and fast high
voltage pulsers. BEHLKE switches and pulsers are available
in both single and push-pull switch configurations, in
MOSFET, IGBT, MCT and Thyristor technology, for AC and
19
DC, for voltages up to 150 kV and currents up to 16 kA. A
large number of packaging and cooling options allows a
perfect system integration in every individual OEM
application. BEHLKE is committed to the highest industrial
quality standards and grants a global 5 years product warranty.
Contact: Montgomery Grimes
Monty.grimes@behlke.com
Booth #29: TDK-Lambda Americas Inc.
405 Essex Rd.
Neptune, NJ 07753
USA
732-922-5408
www.us.tdk-lambda.com/hp
TDK-Lambda Americas High Power Division is a leading
designer and manufacturer of Programmable High Power AC
to DC, and High Voltage Capacitor Charging and DC power
supplies. High Voltage products cover power levels from
500W to 50kW at voltages up to 50 kV. High current products
cover power ranges from 750W to 90kW at voltages from 6 to
1500V and currents from 1.6 to 3,000A. All models are
programmable from zero to full rated current/voltage either
via front panel controls, or remote analog or digital interface.
Contact: Andy Tydeman
andy.tydeman@us.tdk-lambda.com
Booth #30: HVR Advanced Power Components
2090 Old Union Rd.
Cheektowaga NY 14227
USA
www.hvrapc.com
HVR provides cost-effective engineered solutions for highstress resistor applications. Application areas include:
Industrial, T&D, High Voltage Pulsed Power, Research,
Transportation, and Medical. Our solid composition resistors
provide a solution for high voltage, non-inductive and high
peak power resistive applications. We utilize our decades of
experience and unique materials approach to engineer a lowcost application-specific solution.
Contact: Bill Glodzik
bill.glodzik@hvrapc.com
20
Kilowatt Sponsors
Booth #2: 5S Components, Inc.
630 Fifth Ave.
East McKeesport, PA 15035
USA
www.5SComponents.com
Founded in 2005 5S Components, (A management buyout of
ABB Semiconductors Inc). Over a decade in the High Power
component business. US Sales channels for; ABB
Semiconductors, ABB Sensors, Astrol Electronics (Pulse
Power Assemblies and components) Power Integrations
(IGBT Gate Drivers), Icar Capacitors and Danotherm
Resistors.
Contact: Kenny Stephenson
Kenny@5SComponents.com
Booth #3: Jema Energy SA
Paseo del Circuito 10
E-20160 Lasarte-Oria
Gipuzkoa · Spain
www.jemaenergy.com
Jema Energy designs and manufacturers customized power
converters such as magnet power supplies, high voltage power
supplies both pulsed and CW, klystron modulators for particle
accelerators and nuclear fusion installations. The company
was founded in 1953 and has supplied power conversion
systems to JET, JT60-SA, MAST, CERN, DESY etc.
Contact: Bas Eikelboom
b.eikelboom@jemaenergy.com
Booth #4: Pulse Power Solutions LLC
Mill Creek, WA
USA
716-553-4597
http://pulsepowersolutions.com
PPS specializes in high-power Pseudospark switches and also
offers a large selection of Hot Cathode Thyratrons, Cold
21
Cathode Thyratrons, sealed two- and three-electrode Spark
Gap switches and switch drivers. PPS provides cost-effective
switching solutions for numerous high voltage applications,
including: Fusion, Magneforming, Industrial Linacs, Electron
Beam Sources, Electromagnetic Launchers, X-Ray
Generators, and R&D. From the TDI series Pseudosparks to
traditional thyratrons to self-break and triggered spark gaps,
Pulse Power Solutions will find the switch you need and
corresponding driver and accessories to match your
application. Peak currents up to 200 kA, jitter as low as 0.2 ns,
and lifetimes over 2 million Coulombs have been
demonstrated.
Contact: Carye Yanko
carye@pulsepowersolutions.com
Booth #7: Pulse Power and Measurement (PPM)
Unit 65 Shrivenham Hundred Business Park
Watchfield, Swindon, SN6 8TY
UK
www.ppm.co.uk
PPM is a manufacturer of RF over fiber equipment and a
specialist distributor of components for power electronics,
high voltage and pulsed power applications. The component
range includes semiconductors, switches, capacitors, resistors,
heat sinks and simulation software. Sentinel and point2point
fibre optic links transport signals in the presence of intense
electromagnetic fields, such as in EMC testing and high
energy physics. PPM also supplies test and measurement
equipment such as current probes and attenuators.
Contact: Phil Surman, Sales Director
sales@ppm.co.uk
Booth #11: Spellman High Voltage Electronics Corp
475 Wireless Blvd
Hauppauge, NY 11788
978-846-0506
www.spellmanhv.com
Spellman High Voltage Electronics is the world's leading
independent manufacturer of dc and pulsed high voltage
22
power supplies. Our product range includes: Modules, Rack
Mounted Supplies and Custom Designed Products developed
to precise customer specification. Voltages range from 250V
to 500kV and power from <1W to 120kW+.
Contact: Stephen Hopkins
shopkins@spellmanhv.com
Booth #12: L-3 Applied Technologies, Inc.
2700 Merced Street
San Leandro, CA. 94577
USA
510-325-6015
www2.l-3com.com/ati/solutions/electromagnetic_systems.htm
L-3 Applied Technologies, Inc. (L-3 ATI) is an industry leader
in Pulsed Power Physics, Engineering and Technology. We
have nearly 50 years experience designing, building, testing
and operating high voltage, high current, pulsed power and
power electronics systems. L-3 ATI has delivered more than
300 major pulsed power systems to government and
commercial customers world-wide. Our specific areas of
expertise include: EM Railgun Systems, Directed Energy
Weapon Systems, Lightning Simulators, Nuclear Weapons
Effects Simulators, Pulsed Plasma Devices, High Power
Microwave Systems, Large-Area EMP Generators, HighAverage Power Modulators and Industrial Electron Beam &
Flash X-ray Radiography Systems along with providing novel
solutions for Critical Infrastructure Shielding and Human
Injury Detection & Prevention.
Contact: Peter Laurence
Peter.Laurence@L-3Com.com
Booth #13: Scandinova Systems AB
Ultunaallen 2A
Uppsala, Sweden 756 51
Sweden
www.scandinovasystems.com
ScandiNova Systems AB is a leading manufacturer of Solid
State Pulse Power Modulators for particle research
accelerators, radiotherapy, X ray cargo scanning detection, E23
beam sterilization, Pulsed Electric Field and various other
pulsed power applications. Located in Uppsala Sweden,
ScandiNova has system installations in North and South
America, Asia, Australia as well as in Europe.
Contact: Douglas Eaton
Douglas.eaton@scandinovasystems.com
Booth #15: Lockheed Martin
1902 West Freeway
Grand Prairie TX 75051-2799
USA
www.lockheedmartin.com
Headquartered in Bethesda, Maryland, Lockheed Martin is a
global security and aerospace company that employs
approximately 126,000 people worldwide and is principally
engaged in the research, design, development, manufacture,
integration and sustainment of advanced technology systems,
products and services.
Contact: Steve Calico
steve.e.calico@lmco.com
Booth #16: Kanthal Globar - Sandvik Heating Technology
495 Commerce Drive Suite 7
Amherst, NY 14228
USA
716-908-2896
www.globar.com
Kanthal Globar, a business unit within The Sandvik Group, a
$14 billion high technology enterprise with 50,000 employees
worldwide, manufactures a broad offering of High Voltage
Non-Inductive Bulk Ceramic Resistors and Double Layer
Capacitors. When traditional resistors just won't do for your
tough design problem, Kanthal Globar bulk ceramic noninductive resistors offer the solution. We offer a full line of
rugged, reliable bulk ceramic resistors - including custom
designs - to meet the high voltage, high energy, high power,
high current and low inductance requirements of the most
demanding applications.
Contact: Paul Elliott
Paul.elliott@sandvik.com
24
Booth #17: NWL, Inc.
312 Rising Sun Rd
Bordentown, NJ 08505
USA
www.nwl.com
NWL is a proven leader in providing engineered power
conversion solutions for demanding industrial and military
applications. By allowing access to the NWL engineering
staff, a collaborative design and development approach
provides customized solutions for power supplies,
transformers, inductors and capacitors for the most
challenging requirements. From heavy duty oil and gas
applications to high end medical and military applications,
NWL consistently delivers unique solutions that meet or
exceed customer’s precise needs. Over 75 years of integrated
manufacturing experience allows the consistent quality and
reliable delivery that has come to be expected regardless of
order volume. Specific for the pulse power market we have a
complete line of pulse power capacitors - metal & plastic case
- as well as capacitor charging power supplies.
Contact: Jim Given
jgiven@nwl.com
Booth #19: Pearson Electronics Inc.
4009 Transport Street
Palo Alto, CA 94303
USA
www.pearsonelectronics.com
Pearson Electronics is the original and leading manufacturer
of Precision Wide-Band Current Transformers used for
accurate AC current measurements. Pearson Current Monitors
can measure pulse, surge, transients, harmonics, sine-wave,
EMI and other complex current wave shapes. Rise times as
fast as 1.0 nanosecond can be viewed, and droop as low as
0.02%/millisecond. 1% accuracy over the midband and a
typical 3dB bandwidth is 1Hz to 20 MHz. We meet both
OEM and custom requirements.
Contact: Jeff Reed
jeffreed@pearsonelectronics.com
25
Booth #20: Advanced Energy
1625 Sharp Point Drive
Fort Collins, CO 80525
http://www.advanced-energy.com/en/High_Voltage.html
Advanced Energy has devoted more than three decades to
perfecting power—enabling design breakthroughs and driving
growth for leading semiconductor and industrial customers.
Our precision power and control technologies, along with our
applications know-how, inspire close partnerships and
perpetual innovation in thin-film and industrial manufacturing.
Founded in 1981, Advanced Energy has built a diversified and
global business, delivering advanced power and control
technologies to customers across a broad range of industries.
The AE team, deployed throughout North America, Europe,
and Asia, provides technical expertise and responsive and
agile power solutions for thin-film and industrial
manufacturing. Our high-voltage power systems serve hightech and industrial applications from X-ray and scientific
analysis to intense pulsed light and mass spectrometry.
Contact: James Morrison
james.morrison@aei.com
Booth #23: GMW Associates
955 Industrial Road
San Carlos, CA 94070
USA
www.gmw.com
We are a Distributor and Integrator of Sensors, Transducers,
Instruments and Systems based on magnetics. Products and
support are provided for: non-contact, isolated sensing of
mechanical position and magnetic material; magnetic field and
magnetic property measurement; electric current measurement
and control; magnetic field generation and control; particle
beam control and acceleration. We will be showing PPM
point-2-point fiber-optic links for transmission of analog
signals with a frequency of DC-40MHz or 40Hz-3GHz. We
will also be showing GMW DC-AC Clamp-On Current Probes
from ±500A to ±8000A, DaniSense High Precision DC-AC
Current Transducers from ±300A to ±8000A, and PEM ClipAround Rogowski Coil AC Current Probes with frequencies to
30MHz and range to ±300kA.
Contact: Brian Richter, President
brian@gmw.com
26
Booth #24: R&K Company Limited
721-1 Maeda, Fuji-City,
Shizuoka-Pref. 416-8577
Japan
www.rk-microwave.com
R&K manufactures “RF Solid State Power Amplifier” and
“Other Functional RF Components” for 38 years since being
established in Japan in 1977. Such as broadband power
amplifier products, connectorized components as both active
and passive products, analog phase shifters for both narrow
and broadband products, surface-mountable products, and 8pin packaged products. We also manufacture custom products
for customers who need special products for special purposes
like MRI Systems, Supersonic Transducer Driver/Receiver
Systems, Particle Accelerator, EMC testing, or RFI/EMI
testing. We also do calibration and repair at our laboratory as
after-sales service. To achieve our customers’ best satisfaction
at quality, cost and delivery, R&K is always open for
consulting by providing our specialized knowledge about RF.
R&K always continues to develop new products using the
latest technology with the aim of shaping the future
development of the RF and microwave industries.
Contact: Reichiro Kobana, CEO
sales@rkco.jp
Booth #25: Barth Electronics Inc.
1589 Foothill Road
Boulder City, NV 89005
USA
www.barthelectronics.com
Barth Electronics, Inc. has been designing and manufacturing
state-of-the-art, fast-pulse, high-voltage measurement
hardware since 1964. Our first high voltage pulse
instrumentation hardware was designed for underground
nuclear testing, and taught us much about reliable wideband
HV attenuators. These “special” products have become
“standards” and are used every day for reliable pulse
measurements in physics and pulse power laboratories around
the world.
Contact: Jon Barth
jonbarth@barthelectronics.com
27
Booth #26: Diversified Technologies Inc.
35 Wiggins Ave
Bedford MA 01730
USA
www.divtecs.com
Diversified Technologies, Inc., headquartered in Bedford,
MA, is the developer and manufacturer of the PowerMod™
line of solid state power supplies, pulse modulators, RF
transmitters, and related high voltage, high power equipment.
DTI's high voltage systems are used in defense and
commercial applications including radar, power conversion,
high-energy physics, and food and wastewater processing. The
company is a multiple winner of R&D Magazine’s R&D 100
Award, and has been selected as a Small Business Innovative
Research Award Winner by the Massachusetts Technology
Collaborative.
Contact: Michael Kempkes
Kempkes@divtecs.com
781-275-9444 X211
Booth #28: Eagle Harbor Technologies Inc.
119 West Denny Way
Suite 210
Seattle, WA 98119
USA
www.eagleharbortech.com
Eagle Harbor Technologies, Inc. (EHT) was founded in 2005.
Over the last decade, EHT has developed integrated power
modules, high current switches, isolated pulse generators,
magnetic diagnostics, and plasma sources. The recently
introduced EHT nanosecond pulser product line allows
researchers unprecedented control of pulse width and pulse
repetition frequency for a wide range of applications including
driving dielectric barrier discharges. EHT power systems are
currently in use in basic research experiments as well as in the
aerospace, medical, and semiconductor industries.
Contact: Dr. Timothy Ziemba
Ziemba@eagleharbortech.com
28
Watt Sponsors
Table #2: TREK, INC.
190 Walnut Street
Lockport, NY 14094
USA
www.trekinc.com
Trek designs and manufactures high-voltage amplifiers, piezo
drivers, power supplies & generators and high performance
electrostatic measurement instruments for demanding
applications. Drive reactive or resistive loads with the
company’s high-voltage amplifiers available from +/-50 V to
+/-60 kV DC or peak AC, with high slew rates, wide
bandwidth and excellent stability. Trek’s 1 kV pulser offers
fast rise time, high peak current and adjustable pulse width.
Contact: Brian Carmer
sales@trekinc.com
Table #3: Tera Analysis Ltd.
21 Knasterhovvej
Svendborg DK-5700
Denmark
www.quickfield.com
QuickField software from Tera Analysis Ltd. is a tool for
electromagnetic, heat transfer and stress analysis simulations.
It requires no training and widely used in industry for
designing cables, capacitors, insulators, magnetic systems,
electric motors, medical and biophysical applications. Major
universities use QuickField as a teaching tool for electrical
engineering and bioengineering classes. Our website provides
tons of examples, tutorials, videos, recorded webinars and a
free Student edition of the program.
Contact: Vladimir Podnos
ussupport@quickfield.com
29
Table #4: R. E. Beverly III and Associates
P. O. Box 198
Lewis Center, OH 43035
USA
www.reb3.com
R. E. Beverly III and Associates was founded in 1978.
Initially a contract-research organization, we now also offer a
wide range of pulsed power components and systems
including demountable gas-flow switchgear, trigger
generators, dummy loads, and re-entrant coaxial cable
connectors. Switches are available with operating voltages
ranging from a few kV to MV and peak currents ranging from
a few kA to MA. Electrically triggered (trigatron, fielddistortion, surface-discharge) and laser triggered models are
offered. Our specialty is design and manufacture of custom
engineered pulsed power systems tailored for a user’s specific
application.
Contact: Dr. Robert Beverly (technical questions) or Nancy
Cameron (general product inquiries)
enquiries@reb3.com
30
ACCELERATOR WORKSHOP
Note: The Accelerator Workshop is open to all registered
attendees.
Outline and Objectives
When developing small research or industrial accelerator
facilities employing Radio Frequency (RF) power sources, the
design cost can be considerable compared to the total project
cost. Therefore limiting the design effort to a meticulous
selection of standard off the shelf products may be a cost
effective solution. In contrast, in large facilities where the RF
power system has a significant impact on the global technical
performance and cost, the design of the electrical to RF power
conversion system should be addressed differently. When
industrial standards do not exist, or the project scale is
sufficient to develop “project standards,” it becomes important
to adopt an organised and integrated design optimization
process. For instance if both the klystron and modulator are
new designs, the interface voltage becomes a free parameter.
However, there are typically design team, and other
organizational boundaries, at the technology interface between
the RF and power converter engineers that can impede
integrated optimization of these sub-systems.
The workshop aims at:

Analysing these interfaces, the design constraints that
they introduce, impediments to integrated design
optimization, and strategies to transcend these
limitations;
 Introducing optimization methods suitable for
integrated design;
 Share experiences and create links between people
from different organisations and countries who are
facing similar design challenges.
The workshop will begin with talks on the optimization of the
CLIC RF power system and swarm optimization. This will be
followed by a working-group discussion, analysing system
interfaces for a strawman accelerator RF power system and
discuss
participant
experience;
design
constraints,
impediments to integrated design optimization, and strategies
to transcend these limitations.
31
Accelerator Workshop
Thursday, July 7, 2016 15:30 – 17:30 Pacific Heights
15:30 WS1
Using an Integrated Design Approach for the
Compact Linear Collider (CLIC) Klystron
Modulators
D. Aguglia
CERN
16:00 WS2
Particle swarm optimization techniques for pulsed
power systems
A. Jensen
SLAC National Accelerator Laboratory
16:30 WS3
Workshop Discussion: Power converter design at
the (RF power) system-level
Moderated Discussion
32
2016 IEEE IPMHVC TECHNICAL PROGRAM
Location: Palace Hotel, San Francisco, CA
Wednesday, July 6, 2016
Plenary 1
Wednesday, July 5, 2016 08:15 – 09:30 Ralston Ballroom
Session Chair: George Laity, Sandia National Laboratories
08:15 PL1
Daily operation of Z: an 80 terawatt, 36 module pulsed
power driver
M. E. Savage, M. E. Cuneo, J. P. Davis, B. T. Hutsel, M. C.
Jones, P. A. Jones, R. J. Kamm, M. R. Lopez, M. K. Matzen,
D. H. McDaniel, G. R. McKee, J. E. Maenchen, J. L. Porter,
K. R. Prestwich, J. Schwarz, D. B. Sinars, B. S. Stoltzfus, K.
W. Struve, W. A. Stygar, P. E. Wakeland, and W. M. White
Sandia National Laboratories
Oral Session 1:
Dielectrics, Insulation, & Breakdown I
Wednesday, July 6, 2016 10:00 – 12:00 Ralston Ballroom
Session Chair: Ray Allen, Naval Research Laboratory
10:00 1O1 – 1O2, invited
Charge trapping/detrapping characteristics and lifetime
of solid dielectrics
G. Chen
University of Southampton
10:30 1O3
Two-dimensional numerical modeling of electric field and
correlation to breakdown – area scaling
E. Tuncer
Texas Instruments Inc
10:45 1O4
Electrical and mechanical strength investigation of
layered sandwich structure using Al2O3 and SiO2 with
polyimide film
S. Akram and G. Wu
Southwest Jiaotong University
33
11:00 1O5
Energy consumption characteristics of pulsed arc
discharge in high pressure carbon dioxide up to
supercritical phase
T. Furusato, T. Kamagahara, H. Koreeda, T. Fujishima, and
T. Yamashita
Nagasaki University
11:15 1O6
An AC arc discharge model for ice-covered FRP live-line
tools
M. Ghassemi and M. Farzaneh
INGIVRE, Université du Québec à Chicoutimi
11:30 1O7
Characterization of double-positive metamaterials for
advanced applications
A. Pearson and R. Curry
University of Missouri
11:45 1O8
Seismic wave characteristic of ground surface layer
produced by pulsed discharges in closed water domain
C. Ren, X. Xu, R. Fu, A. Fan, Y. Sun, J. Wang, P. Yan, and
T. Shao
Institute of Electrical Engineering, Chinese Academy of
Sciences
Oral Session 2:
Accelerators, Beams, and Repetitive
Pulsed Power
Wednesday, July 6, 2016 10:00 – 12:00 Gold Ballroom
Session Chair: Craig Burkhart, SLAC National Accelerator Laboratory
10:00 2O1
Core and copper loss effects on the stepped impedance
transmission line pulse generator
A. Kuthi1, J. M. Sanders2, and M. A. Gundersen1
1
University of Southern California
2
Transient Plasma Systems
34
10:15 2O2
Design of bipolar pulse generator topology base on Marx
generator supplied by double power
S. Dong, C. Yao, Y. Mi, C. Li, Y. Zhao, Y. Lv, and H. Liu
Chongqing University
10:30 2O3
Repetitive high voltage pulse modulator using bipolar
Marx generator combined with pulse transformer
L. Tong, J. Qiu, and K. Liu
Fudan University
10:45 2O4
Design and testing of a compact low impedance Marx
generator with quasi rectangular pulse
H. Liu, W. Xie, J. Yuan, X. Ma, and P. Jiang
Key Laboratory of Pulsed Power, Institute of Physics,
China Academy of Engineering Physics
11:00 2O5 – 2O6, invited
Initial evaluation of the load current multiplier concept
on the Sandia Z accelerator
G. Laity1, M. Martin1, C. Jennings1, D. Lamppa1, E. Madrid2,
R. McBride1, T. Pointon1, G. Robertson1, G. Rochau1, D.
Rose2, D. Rovang1, M. Savage1, E. Field1, W. Stygar1,
D. Welch2, T. Awe1, A. Chuvatin3, M. Cuneo1, M. Gomez1,
R. Falcon1, M. Hess1, and B. Hutsel1
1
Sandia National Laboratories
2
Voss Scientific
3
l’École Polytechnique
11:30 2O7
The high voltage pulsed current supply based on solidstate devices
H. Shi, J. Qiu, and K. Liu
Fudan University
11:45 2O8
Repetitive pulse x-rays generator based on all solid state
pulsed power source
J. Yuan, W. Xie, X. Ma, H. Liu, P. Jiang, L. Wang, and H. Li
China Academy of Engineering Physics
35
Poster Session 1A: Dielectrics I and Repetitive Pulsed
Power
Wednesday, July 6, 2016 13:30 –15:00 Twin Peaks
Session Chair: Matthew McQuage, Naval Surface Warfare Center
Dahlgren
Session Chair: John Krile, Naval Surface Warfare Center Dahlgren
1PA1 Chopper-Marx circuit for application to ILC: switching
and voltage adding
R. Suzuki1, T. Hayashi1, T. Sugai1, A. Tokuchi1, W. Jiang1,
M. Akemoto2, and H. Nakajima2
1
Nagaoka University of Technology
2
High Energy Accelerator Research Organization (KEK)
1PA2 Chopper-Marx circuit for application to ILC: charging
and system control
T. Hayashi1, R. Suzuki1, T. Sugai1, A. Tokuchi1, W. Jiang1,
M. Akemoto2, and H. Nakajima2
1
Nagaoka University of Technology
2
High Energy Accelerator Research Organization (KEK)
1PA3 Modular Marx generator
K. Rainwater, D. Barnett, A. Neuber, J. Mankowski, and
J. Dickens
Texas Tech University
1PA4 A Marx-based power converter topology as a current
source for pulsed magnets in particles accelerators
D. Aguglia and T. Todorcevic
CERN
1PA5 Design of a Marx generator with high pulse repetition
rate
C. Mao1, J. Lehr2, J. C. Pouncey2, and X. Wang1
1
Tsinghua University
2
University of New Mexico
1PA6 The researches on compact repetitive pulsed power
system based on Marx generator
S. Hao
Key Laboratory of Pulsed Power, Institute of Fluid Physics,
China Academy of Engineering Physics
1PA7 Design of dual polarity MV dipole antenna system
W. Nunnally, M. Lara, J. Byman, E. Perry, J. Mayes, and
W. C. Nunnally
Applied Physical Electronics, LC
36
1PA8 A compact high voltage pulse generator for three plasma
synthetic jet actuators synchronous discharge
L. Wang, C. Zhang, L. Han, T. Shao, and C. Ren
Institute of Electrical Engineering, Chinese Academy of
Sciences
1PA9 Performance improvement of a compact pulsed neutron
generator with a vacuum arc ion source
Z. Yang, J. Li, X. Li, and T. Wang
Institute of Fluid Physics, China Academy of Engineering
Physics
1PA10 A high repetition-rate bipolar nanosecond pulse
generator based on magnetic pulse compression system
Y. Mi, J. Wan, N. Yang, T. Luo, C. Yao, and C. Li
College of Electrical Engineering, Chongqing University
1PA11 Sub-microsecond pulse generators based on magnetic
pulse compression system
D. Zhang1, Y. Zhou2, and P. Yan1
1
Institute of Electrical Engineering, Chinese Academy of
Sciences
2
Automation and Electrical Engineering College,
Tianjin University of Technology and Education
1PA12 A 100 kV nanosecond pulse generator based on magnetic
pulse compressor
Y. Zhou and D. Zhang
Tianjin Key Laboratory of Information Sensing and
Intelligent Control,
Tianjin University of Technology and Education
1PA13 Development of a test platform for high voltage ceramic
capacitors based on magnetic compression
J. Gao, H. Yang., S. Li, J. Kan, and B. Qian
National University of Defense Technology
1PA14 High power microwave pulse compressors with a variable
geometry of accumulative resonant cavity
S. Artemenko1, R. E. Beverly, III2, S. Gorev1,
and V. Igumnov1
1
National Research Tomsk Polytechnic University
2
R. E. Beverly III and Associates
1PA15 A two dimensional circuit model of induction cavity
G. Fan, B. Gong, J. Jihao, and Z.Wenkang
Institute of Fluid Physics, China Academy of Engineering
Physics
37
1PA16 Numerical analysis on the output characteristics of a
linear switch array pulse modulator
P. He1, W. Tie1, T. Wang2, and C. Guo2
1
Xi'an Electric Engneering Research Institute
2
Xi'an Jiaotong University
1PA17 A repetitive rate pulse system used in lifetime evaluation
of high voltage ceramic capacitors
J. Yan, W Ding, Y. Gou, Y. Wang, K. Qian, Y. Wang, and P.
Wang
State Key Laboratory of Electrical Insulation and Power
Equipment,
Xi’an Jiaotong University
1PA18 Development of variable charging system for voltage
adjustment
R. Ogata, M. Fue, T. Oikawa, M. Akiyama, and K. Takaki
Iwate University
1PA19 GW-class relativistic backward-wave oscillator with pulse
duration above 200 ns
X. Ge, J. Zhang, J. Yang, Z. Jin, and T. Shu
National University of Defense Technology
1PA20 High voltage studies of inverted-geometry ceramic
insulators for a 350 kV DC polarized electron gun
C. Hernandez Garcia, M. Poelker, and J. Hansknecht
Jefferson Lab
1PA21 Stability of thyratron switching in LCLS linac
modulators
A. Benwell, F. J. Decker, A. Krasnykh, J. Krzaszczak, and T.
Maxwell
SLAC National Accelerator Laboratory
1PA22 Effects of thyratron aging on klystron RF pulse stability
P. Delgiusto, A. Fabris, F. Pribaz, N. Sodomaco, and
L. Veljak
Elettra - Sincrotrone Trieste ScpA
1PA23 Thyratron stability improvements of SNS extraction
kicker system
B. Morris
Oak Ridge National Laboratory
1PA24 Towards sub-ppm shot-to-shot amplitude stability of
SwissFEL resonant kicker
M. Paraliev and C. Gough
Paul Scherrer Institut
38
1PA25 CSNS pulse klystron high voltage power supply system
overview and performance test
J. Li
Institute of High Energy Physics, Chinese Academy of
Sciences
1PA26 High-voltage soliton production with nonlinear lumped
varactor diode lines
J. Rossi1, L. Silva Neto1, J. Barroso1, and E. Schamiloglu2
1
National Institute for Space Research-INPE
2
University of New Mexico
1PA27 High power soliton generation using hybrid nonlinear
transmission lines
L. Silva Neto1, J. Rossi1, J. Barroso1, E. Schamiloglu2
1
National Institute for Space Research
2
University of New Mexico
1PA28 High power microwave production with a nanosecond
pulser and nonlinear transmission line
J. Prager, T. Ziemba, and K. Miller
Eagle Harbor Technologies, Inc.
1PA29 Gyromagnetic nonlinear transmission line with sealed
spark gap
R. Ryan, H. Cravey, A. Neuber, and J. Dickens
Texas Tech University
1PA30 Design and performance of an 8 line gyromagnetic
nonlinear transmission array
W. H. Cravey, R. D. Ryan, A. A. Neuber, J. C. Dickens, and
J. J. Mankowski
Texas Tech University
1PA31 Multichannel signal synthesis in free space
Z. Shaw, W. Feilner, C. Lynn, A. Neuber, and J. Dickens
Texas Tech University
1PA32 Custom designed dummy loads for HV pulsed power
modulator testing
M. Osemann
Ampegon-PPT GmbH
1PA33 Construction and commissioning Xbox3: a very high
capacity X-band test stand
G. McMonagle1, N. C. Lasheras1, C. Francois Eymin1, J. G.
Navarro2, S. F. Rey1, A. Solodko1, I. Syratchev1, B.
Woolley1, D. E. Pereira2, and T. Argyropoulos2
1
CERN
2
Instituto de Fisica Corpuscular
39
1PA34 Characterization and fabrication of carbon nanotubes
grown on ceramic substrates for high temperature RFID
applications
B. Yakupoglu, M. Moxley, and H. Kirkici
Auburn University
1PA35 A 400 A programmable linear current pulse generator
G. Grawer, N. Voumard, F. C. Dominguez, and T. Fowler
CERN
1PA36 Permittivity and permeability in double positive
metamaterials fabricated with barium titanate
K. Noel, R. Curry, and G. Howard
University of Missouri
1PA37 Investigation dielectric materials at different frequency
ranges
E. Onal and A. Kara
Electrical Engineering Department, Istanbul Technical
University
1PA38 Dielectric properties and surface flashover characteristics
of Al2O3-filled epoxy resin in subatmospheric pressure
under 20 – 200 kHz applied pulsed fields
H. Kirkici1, M. Ozcan2, and Y. Chen1
1
Auburn University
2
Necmetting Erbakan University
1PA39 Influence of test conditions on the thermally stimulated
current characteristics of silicone rubber used for
composite insulators
Y. Liang, L. Gao, and P. Dong
Hebei Provincial Key Laboratory of Power Transmission
Equipment Security Defense, North China Electric Power
University
1PA40 Flashover characteristics of metal particle contaminated
GIS insulator under DC voltage
Q. Du1, Y. Qin1, J. Ma1, Q. Zhang1, T. Wen1, J. He2, J. Zhao1,
and P. Zhang2
1
Xi'an Jiaotong University
2
China Electric Power Research Institute
1PA41 Experimental study on surface flashover and analysis of
surface morphology of silicon rubber
Q. Xie1, T. Wang1, Z. Hu1, H. Huang1, C. Wang1, X. Bian1,
Y. Xu1, and X. Wang2
1
Hebei Provincial Key Laboratory of Power Transmission
Equipment Security Defense, North China Electric Power
University
2
Department of English, North China Electric Power
University
40
1PA42 Influence of metallic particle on flashover characteristics
of post insulator in SF6 under negative DC voltage
Y. Qin1, C. Guo1, Q. Du1, T. Wen1, J. Ma1, Z. Li2, and Q.
Zhang1
1
Xi'an Jiaotong University
2
China Electric Power Research Institute
1PA43 Surface
flashover
characteristics
of
grooved
nanodielectrics under pulsed voltage in partial vacuum
Y. Chen, A. Kara, and H. Kirkici
Auburn University
1PA44 High-field excited flashover across solid dielectrics in
vacuum: mechanism and suppression
G. J. Zhang, R. D. Zhou, G. Q. Su, B. P. Song, and H. B. Mu
Xi'an Jiaotong University
1PA45 Pressure rise calculation due to an internal arc fault in
HV metal-enclosed SF6 GIS
D. Bešlija1, S. Delić1, M. Kapetanović1, and D. Gorenc2
1
Univiversity of Sarajevo
2
KONČAR-EVA d.d. Zagreb
1PA46 Effects of mechanical pre-stress on the dielectric strength
of alumina Al2O3
Z. Jouini, D. Malec, and Z. Valdez-Nava
Laplace Université Paul Sabatier
1PA47 Dielectric Strength Testing of 3D Printed Polymeric
Materials
B. Hoff1, S. Maestas1, and S. Hayden2
1
Air Force Research Laboratory
2
Aramco Services Company
1PA48 Electro-convection in liquids in absence of ionization
A. Pokryvailo
Spellman High Voltage Electronics Corp.
Poster Session 1B: Dielectrics I
Wednesday, July 6, 2016 13:30 –15:00 Presidio
Session Chair: George Laity, Sandia National Laboratories
1PB1 DC breakdown from vacuum to low pressure in
dielectric-loaded systems
M. Aldan1 and J. Verboncoeur2
1
University of California, Berkeley
2
Michigan State University
41
1PB2 Surface flashover properties of polytetrafluoroethylene
modified by ion implantation in vacuum
R. Xu, T. Xia, D. Li, and D. Zhang
Institute of Electrical Engineering, Chinese Academy of
Sciences
1PB3 A coaxial ceramic vacuum insulator for a repetitive
operated pulsed power source
T. Xun, H. W. Yang, Z. C. Zhang, D. Q. Chen, J. T. He,
and J. D. Zhang
College of Opto-Electric Science and Engineering,
National University of Defense Technology
1PB4 Characteristics of residual surface charge distribution on
alumina under DC voltage in vacuum
G. Q. Su, Y. B. Wang, B. H. Guo, B. P. Song, and G. J.
Zhang
State Key Laboratory of Electrical Insulation and Power
Equipment, School of Electrical Engineering, Xi’an Jiaotong
University
1PB5 Relationship between the physicochemical properties of
materials and the fractal dimension of creeping
discharges propagating at solid/fluid interfaces
A. Beroual
l'École Centrale de Lyon, University of Lyon, Ampere Lab
1PB6 The analysis of time to breakdown in various gas
insulation systems
E. Onal
Istanbul Technical University
1PB7 Comparison of breakdown voltage of N2, CO2, SF6, N2SF6, and CO2-SF6 mixtures: seeking substitutes for SF6
for high voltage apparatus
A. Beroual and M.-L. Coulibaly
l’École Centrale de Lyon, University of Lyon, Ampere Lab
1PB8 Proposing supercritical fluids as a replacement for SF6 in
high–voltage circuit breakers
B. van Heesch1, J. Zhang2, U. Ebert3, T. Huiskamp1, W.
Hoeben1, F. Beckers1, A. Markosyan4, and G. Pemen1
1
TUe Netherlands
2
TKF Netherlands
3
TUe and CWI Netherlands
4
University of Michigan
42
1PB9 Influence of impulse waveform parameters on the
breakdown voltage in SF6 highly inhomogeneous electric
field
T. Wen1, Q. Zhang1, Z. Wu1, C. Guo1, M. Chen1, L. Zhang1,
and X. Tan2
1
State Key Laboratory of Electrical Insulation and Power
Equipment,
Xi’an Jiaotong University
2
Yunnan Electric Power Test and Research Institute Group
CO., LTD.,
Electric Power Research Institute
1PB10 Influence of electric field non-uniformity on breakdown
characteristics in SF6/N2 gas mixtures under lightning
impulse
C. Guo, Q. Zhang, H. You, T. Wen, J. Ma, and Y. Qin
Xi'an Jiaotong University
1PB11 Dielectric breakdown characteristics of the rod-plane
electrode system in SF6 gas under oscillating impulse
voltage
J. Li and L. Zhang
Xi'an Jiaotong University
1PB12 Influence of H2O on SF6 discharge and decomposition
characteristics under low moisture conditions
L. Zhong, S. Ji, K. Liu, Q. Xiong, and L. Zhu
Xi’an Jiaotong University
1PB13 Discussion on the control standards of moisture content in
SF6 electrical equipment
J. Ma1, Q. Zhang1, H. You1, T. Wen1, C. Guo1, Z. Wu1, and
X. Zhang2
1
Xi'an Jiaotong University
2
Shenzhen Power Supply Co. Ltd.
1PB14 Research on the arc of mixture using the confined space
Q. Ye1 and G. Shao2
1
Huazhong University of Science and Technology
2
High Voltage Department of China Electric Power Research
Institute
1PB15 Partial discharge measurements and IEC standards:
justification of the use for their inclusion in after-laying
test for extruded cable systems
M. Batalović1, D. Bešlija1, M.-H. Kim2, K.-H. Kim2, and M.
Kapetanović1
1
Faculty of Electrical Engineering Sarajevo
2
ILJIN Electric Co.Ltd.
43
1PB16 PD pulse sequence studies with model transformer
insulation in mercaptans contaminated transformer oil
S. Kumar1, R. Balaiah2, S. Kumar3
1
Sri Siddhartha Institute of Technology
2
P. E. S. College of Engineering
3
ABB
Poster Session 1C: Dielectrics I
Wednesday, July 6, 2016 13:30 –15:00 Marina
Session Chair: Guan-Jun Zhang, Xi’an Jiaotong University
1PC1 The PD ultrasonic array detection based on MP
Q. Xie, Y. Liu, F. Lv, D. Liu, Y. Zhang, and X. Liu
North China Electric Power University
1PC2 Partial discharges in insulation systems subjected to
multilevel converters
M. Florkowski, P. Blaszczyk, and P. Klimczak
ABB Corporate Research
1PC3 Multiple voids insulation system response by partial
discharge analysis
P. Romano, F. Viola, R. Miceli, A. Imburgia,
and A. Madonia
Palermo University
1PC4 Partial discharge and endurance test technologies for
insulation of inverter-fed motors using impulse voltages
P. Wang
School of Electrical Engineering and Information
1PC5 The effect of partial discharge on electrical life of oil
immersed paper
Y. Cui1, X. Ou2, F. Zhang1, P. Cao1, and L. Zhu1
1
Xi'an Jiaotong University
2
Guangdong Electric Power Research Institute
1PC6 Space charge accumulation as a contributor to partial
discharge activity in dielectric elastomer actuators under
high voltage DC
A. Francis, K. Burke, and J. Zirnheld
The State University of New York at Buffalo
1PC7 Effect of electrode composition on the partial discharge
characteristics of a dielectric elastomer actuator system
A. Martinez, K. Burke, and J. Zirnheld
The State University of New York at Buffalo
44
1PC8 Breakdown characteristics of transformer oil insulation
under impulse voltage with different waveforms
parameters
T. Zhao, Y. Liu, F. Lv, J. Yang, and Z. Wang
North China Electric Power University
1PC9 Study on impulse breakdown characteristics in
transformer oil with different electrode materials
Heli Ni, T. Wang, W. Yuan, M. Gao, Y. Li, Y. Ding, and Q.
Zhang
Xi'an Jiaotong University
1PC10 Study on bubble evolution in oil-paper insulation during
dynamic rating of power transformers
M. Gao, Y. Ding, T. Wang, H. Ni, W. Yuan, C. Guo, and Q.
Zhang
Xi'an Jiaotong University
1PC11 Effect of hydrostatic pressure on the impulse breakdown
characteristics of transformer oil
T. Wang, M. Gao, Y. Ding, Y. Li, Q. Zhang, H. Ni, and W.
Yuan
Xi'an Jiaotong University
1PC12 Study of nanosecond electrical breakdown
perfluorinated liquids at 140 kV
I. Punanov1, R. Emlin1, P. Morozov1, and S. Cholakh2
1
Institute of Electrophysics UB RAS
2
Ural Federal University
in
1PC13 Liquid dielectric breakdown studies using compact Tesla
pulse generator
V. P. Gajula, R. Kumar, V. P. Anitha, S. Kumar, and
A. Shyam
Institute for Plasma Research
1PC14 Time-resolved
imaging
of
electrical
development in underwater bubbles
Y. Yang
Huazhong University of Science and Technology
discharge
1PC15 The influence of metal vapor deposition on the insulating
materials
T. Xia and R. Xu
Institute of Electrical Engineering, Chinese Academy of
Science
45
1PC16 Study of the deterioration of conductive coatings used in
form-wound motor coils by fretting wear tests
F. P. Espino-Cortes, M. V. Torres, M. Carlos, T. A. Olivares,
and E. A. Gallardo-Hernández
Section of Graduate Studies,
Superior School of Mechanical and Electrical Engineering,
Zacatenco,
Instituto Politécnico Nacional
1PC17 Analysis of insulation failure of polymer composite blocks
using high frequency wave shapes
E. Kasinathan, M. Gunasekaran, M. Sivashanmugam, L.
Guber, and P. Sekar
Pondicherry Engineering College
1PC18 Breakdown of twisted pair with secondary layer stressed
by switching of Power Electronic Converters (PECs)
E. S. Kasinathan, A. Bharanikumar, P. Rajendiran, S. Babu,
and C. Challipan
Pondicherry Engineering College
1PC19 Breakdown strength properties of XLPE from 160 kV DC
cable under DC and impulse voltage at different
temperature
Y. Liu, H. Liu, L. Yu, and T. Zhao
Hebei Provincial Key Laboratory of Power Transmission
Equipment Security Defense, North China Electric Power
University
Oral Session 3:
Opening, Closing, and Solid State
Switches
Wednesday, July 6, 2016 15:30 – 17:30 Ralston Ballroom
Session Chair: Matt Domonkos, Air Force Research Laboratory
15:30 3O1
High current switching capabilities of a 3000 V SiC
thyristor for fast turn-on applications
J. Sanders1, A. Elasser2, and S. Soloviev2
1
Transient Plasma Systems, Inc.
2
GE Global Research Center
46
15:45 3O2
High-voltage SiC thyristor burst-rate switching
H. O'Brien1, A. Ogunniyi1, and S.-H. Ryu2
1
US Army Research Laboratory
2
Wolfspeed
16:00 3O3
LED-triggered photoconductive semiconductor switches
for nanosecond pulse generation
W. Ren and C. Jiang
Old Dominion University
16:15 3O4
Assessing the role of non-local trap-to-band impact
ionization in 4H-SiC photoconductive switches containing
deep defects aimed at enhanced hold-off voltages
A. Chowdhury, A. Neuber, J. Dickens, R. Joshi, and D.
Mauch
Texas Tech University
16:30 3O5
Skin-effect as the opening switch phenomenon in
combination with the semiconductor opening switch in
high power generators based on inductive storage
O. Egorov
TRINITI
16:45 3O6
High-voltage silicon avalanche diodes for picosecond
range pulse-sharpening applications: towards optimal
design
P. Rodin, V. Brylevskiy, I. Smirnova, P. Brunkov, and I.
Grekhov
Ioffe Institute
17:00 3O7
Reversely switched dynistor: from Si to SiC
L. Liang, L. Zhang, M. Pan, and Y. Shu
Huazhong University of Science and Technology
17:15 3O8
Design and test of the trigger vacuum switch and its
trigger source for the oil well stimulation device
Z. Kailun
Huazhong University
47
Oral Session 4:
High Voltage Design, Devices, Testing,
and Diagnostics
Wednesday, July 6, 2016 15:30 – 17:30 Gold Ballroom
Session Chair: Mike Mazarakis, Sandia National Laboratories
15:30 4O1 – 4O2, invited
Power evaluation of a Cree 1200 V 50 A Si-C MOSFET
using the solid state power emulator
R. Thomas1 and S. Bayne2
1
Army Research Laboratory
2
Texas Tech University
16:00 4O3
High voltage capacitors environmental testing
E. Bankowski1, J. Ho2, T. Meitzler1, and J. White1
1
US Army TARDEC
2
US Army Research Laboratory
16:15 4O4
A compact Faraday cup for nanosecond-pulse runaway
electron beams
J. Gu, C. Zhang, X. Hou, T. Shao, R. Wang, and P. Yan
Institute of Electrical Engineering, Chinese Academy of
Sciences
16:30 4O5
Miniature high voltage, high temperature component
package development
L. Rashkin, R. Brocato, J. Flicker, L. Fang, J. Neely, and R.
Kaplar
Sandia National Laboratories
16:45 4O6
Research of sweep frequency impedance criterion to
determine transformer winding deformation
F. Yang, Y. Liu, and F. Zhang
State Key Laboratory of Electrical Insulation and Power
Equipment
17:00 4O7
Optimal design of a medium voltage high frequency
transformer with a high isolation voltage (115 kV)
M. Jaritz and J. Biela
ETH Zurich
48
17:15 4O8
Design considerations for higher electrical power system
voltages in aerospace vehicles
I. Cotton1, D. Schweickart2, D. Grosjean3, and C. Severns4
1
University of Manchester
2
Air Force Research Laboratory-WPAFB
3
Innovative Scientific Solutions, Inc.
4
Boeing Company
Thursday, July 7, 2016
Plenary 2
Thursday, July 7, 2016 08:15 – 9:30 Ralston Ballroom
Session Chair:
Allen Garner, Purdue University
08:15 PL2
Using high voltage nanosecond pulses to control cell
functions and treat tumors
R. Nuccitelli
Pulse Biosciences, Inc.
Oral Session 5:
Biomedical Applications and Power
Modulators
Thursday, July 7, 2016 10:00 – 12:00 Ralston Ballroom
Session Chair:
Jennifer Zirnheld, State University of New York at
Buffalo
10:00 5O1 – 5O2, invited
Physical and biological implications of capacitive coupling
for electric pulse treatments
A. Garner1, A. M. Darr1, A. D. Michelson2, A. Frelinger III2,
A. J. Gerrits2, A. Caiafa3, C. A. Morton3, V. Robinson3, M.
A. Berny-Lang2, S. L. Carmichael2, and V. Bogdan Neculaes3
1
Purdue University
2
Harvard Medical School
3
GE Global Research
49
10:30 5O3
Evaluation of electrical pulsing strategy for optimizing
cellular inflows through electroporation by nanosecond,
high-intensity pulses
Q. Hu1 and R. Joshi2
1
Central Michigan University
2
Texas Tech University
10:45 5O4 – 5O5, invited
Impact of platelet activation electric stimulation protocols
on hematopoietic and mesenchymal stem cells
J. Castle1, A. Garner2, R. Smith1, B. Davis1, S. Klopman1, A.
Torres1, V. Robinson1, and V. Bogdan Neculaes1
1
GE Global Research
2
Purdue University
11:15 5O6
Study of the cell viability and thermal effect under the
high-frequency composite pulses
Y. Zhao, C. Yao, Y. Mi, C. Li, S. Dong, Y. Lv, and H. Liu
Chongqing University
11:30 5O7
Electric pulse manipulation of cancer cell population
dynamics
A. Vadlamani, T. Whitmer, A. Dhanabal, and A. L. Garner
Purdue University
11:45 5O8
Measurement of electric field generated by high power
burst pulse electromagnetic wave in water for using to
application to bioelectrics
Y. Minamitani1, Y. Takeda1, S. Katsuki2, and H. Akiyama2
1
Yamagata University
2
Kumamoto University
Oral Session 6:
Power Electronics and High Voltage
Thursday, July 7, 2016 10:00 – 12:00 Gold Ballroom
Session Chair:
Xiu Yao, State University of New York at Buffalo
50
10:00 6O1
Development of 3 MW dual output high voltage power
supply for IC RF system
A. Patel
ITER-India, Institute for Plasma Research
10:15 6O2
High precision, low ripple 3 kV capacitor charger for
future linear colliders
S. Blume, J. Biela, and D. Gerber
ETH Zürich
10:30 6O3
HV energy dosing DC-to-DC converter in PWM mode
A. Pokryvailo
Spellman High Voltage Electronics Corp.
10:45 6O4
Filtering of noises associated to the commutation of the
DC rectifiers in patterns φ, q, n of partial discharges
T. Ferreira1, S. Dorrbercker2, I. Benitez2, W. Torres3, and A.
Urquiola2
1
Federal University of Campina Grande
2
Instituto Superior Politecnico Jose Antonio Echeverri
3
EDELCA – CORPOELEC
11:00 6O5
Vibration and audible noise analysis of power capacitors
with constrained damping structure
J. Li, S. Ji, Y. Shi, and L. Zhu
Xi'an Jiaotong University
11:15 6O6 – 6O7, invited
High power, high repetition rate, fast capacitor charging
circuit
A. Kuthi1, J. M. Sanders2, and M. A. Gundersen1
1
University of Southern California
2
Transient Plasma Systems, Inc.
11:45 6O8
The distribution of lightning striking points on aircraft
using the leader progress method
Z. Duan and Z. Li
Aviation Key Laboratory of Science and Technology on High
Intensity Electromagnetic Environment Protection
51
Poster Session 2A:
Power Electronics, Power Supplies
Prime Power, Rotating Machines,
and Energy Converters/Biomedical,
Medical, and Environmental Applications of Power Modulators
Thursday, July 7, 2016 13:30 –15:00 Twin Peaks
Session Chair: Isaac Cohen, University of Texas, Arlington
Session Chair: Dong Dai, South China University of Technology
2PA1 Review and recent developments in DC arc fault detection
X. Yao1, D. Schweickart2, J. Wang3
1
State University of New York at Buffalo
2
Air Force Research Laboratory, WPAFB
3
Ohio State University
2PA2 Analysis of fault characteristics of converter in VSCHVDC
X. Sun1, X. Gao2, S. Ji3, and Y. Song3
1
School of Communication and Information Engineering,
Xi’an University of Science and Technology
2
Northwest Subsection of State Grid Corporation of China
3
State Key Laboratory of Electrical Insulation & Power
Equipment, Xi’an Jiaotong University
2PA3 Tokamak vertical stability coil power supply based on
modular multilevel converter
X. Yao and I. Lee
State University of New York at Buffalo
2PA4 Basic design and results of regulated high voltage power
supplies utilized for heating systems at IPR for SST-1
P. Pareshkumar, C. B. Sumod, D. T. Dipal, L. N. Gupta
Laxminarayan, U. K. Baruah Ujjwal, B. K. Shukla
Brijmohan, P. K. Sharma Promod, Prahlad V., S. Kulkarni,
R. Babu, Yss Srinivas, J. Patel, C. Virani, H. Patel, and S.
Dalkoti
Institute for Plasma Research
2PA5 On the circulating current control of a LCL converter for
Tokamak
H. Li
Institute of Plasma Physics, Chinese Academy of Sciences
2PA6 A control system for an isolated LLC resonant DC-DC
Converter
C. Motta
University of Sao Paulo
52
2PA7 A ZCS AC/DC converter with LCL
F. Zhu1, G. Li2, and Q. Hang1
1
University of Science and Technology of China
2
Institute of Plasma Physics, Chinese Academy of Sciences
2PA8 A comparison of piezoelectric transformer technologies
for HVDC converter applications
P. Norgard and S. Kovaleski
University of Missouri
2PA9 Thermal and efficiency study of a solid-state dual Marx
generator combined a pulse transformer
Y. Wang, Q. Zhou, J. Qiu, and K. Liu
Fudan University
2PA10 Continuous switching of ultra-high voltage silicon carbide
MOSFETs
A. Bilbao, J. Schrock, M. Kelley, E. Hirsch, W. Ray, M.
Giesselmann, and S. Bayne
Texas Tech University
2PA11 Experimental study on reverse recovery characteristics of
high power thyristors in HVDC converter valve
K. Yue1, L. Liu2, D. Kong1, S. Li1, L. Pang1, Q. Zhang1, C.
Guo3, and T. Wang3
1
State Key Laboratory of Electrical Insulation and Power
Equipment,
Xi’an Jiaotong University
2
State Grid Sichuan Electric Power Research Institute
3
Xi'an Jiaotong University
2PA12 Closed transition transfer switch based on multi-mode
photovoltaic inverter for preventing power outage
S. Heo, W.-K. Park, and I. Lee
Electronics and Telecommunications Research Institute
2PA13 Research on calibration method for single high pulse
voltage for semiconductor devices test instruments
C. Liu, J. Kan, and J. Li
China Electronics Standardization Institute
2PA14 Fast medium voltage DC solid-state circuit breaker
M. Gaudreau, D. Cope, and M. Kempkes
Diversified Technologies, Inc.
2PA15 Research on 10 kV cascade pulse power supply for
discharge applications
X. Xu, C. Ren, and T. Shao
Institute of Electrical Engineering, Chinese Academy of
Sciences
53
2PA16 Charge-transfer based sensorless voltage feedback in HV
capacitor chargers
A. Bilbao, M. Giesselmann, and S. Bayne
Texas Tech University
2PA17 Investigation of harmonic distortion in multi-pulse
rectifiers for large capacitive charging applications
D. Dodson, B. McRee, I. Cohen, and D. Wetz
University of Texas at Arlington
2PA18 Fuzzy logic control of a hybrid energy storage module for
naval pulsed power applications using a hardware-in-theloop test bed
I. Cohen1, D. Wetz1, Q. Dong2, J. Heinzel2, S. Veiga2
1
University of Texas at Arlington
2
Naval Surface Warfare Center - Philadelphia Division
2PA19 Impact of pulsed power loads on advanced aircraft
electric power systems with hybrid fuel-cell/battery APU
H. Ebrahimi and H. El-Kishky
The University of Texas at Tyler
2PA20 High-current arc discharge (HCAD) test system for
aeronautic power
C. Nunnally, P. Williams, M. Lara, E. Perry, and J. Byman
Applied Physical Electronics, L. C.
2PA21 Experimental study of a helical coil operating mechanism
for future switchgear applications
P. G. Nikolic, M. Heidemann, C. Petino, and S. Wetzeler
RWTH Aachen University
2PA22 Nano-grids: future power grids – concept and review
paper
A. El-Shahat
Georgia Southern University
2PA23 Special purpose power electronics converters for nanogrids & smart homes applications
A. El-Shahat, O. Castle, A. Carver, A. Moore, S. K. Radford,
and M. Moore
Georgia Southern University
2PA24 Energy storage modeling library (ESML) for DC nanogrid
A. El-Shahat and S. Ghose
Georgia Southern University
2PA25 Optimized small scale hydropower generator electrical
system design & modeling based on real-measurements
A. El-Shahat, C. Saggus, R. Coley, and Z. Floyd
Georgia Southern University
54
2PA26 Picosecond pulse delivery to biological tissue by a
dielectric rod antenna
R. Petrella, S. Xiao, and K. Schoenbach
Old Dominion University
2PA27 15-stage compact Marx generator using 2N5551
avalanche transistors
T. Huiskamp, T. Borrias, and G. Pemen
Eindhoven University of Technology
2PA28 Development of high power burst pulse generator based
on magnetic switch for bioelectrics application
K. Yasu, Y. Minamitani, and N. Ken
Yamagata University
2PA29 Multi-parameter analysis in single-cell electroporation
based on the finite element model
H. Liu, Y. Zhao, S. Dong, Y. Lv, C. Yao, Y. Mi, and C. Li
Chongqing University
2PA30 Molecular dynamics based assessment of electric pulse
enhancements of cell membrane poration by pressure
waves
Z. Zhang1, Q. Hu2, and R. Joshi1
1
Texas Tech University
2
Central Michigan University
2PA31 Electric pulse modification of mammalian cell suspension
conductivity
A. Fairbanks, A. Darr, A. Vadlamani, and A. Garner
School of Nuclear Engineering, Purdue University
2PA32 Electric pulse manipulation of stem cell proliferation and
differentiation
A. Vadlamani, S. Kuang, A. L. Garner, Y. Nie, A. Dhanabal,
and T. P. Gavin
Purdue University
2PA33 Study of effects of nanosecond pulsed electric fields on
cancer cell by using in vivo and ex vivo assay
S. Ogura, S. Matsubara, S. Kuniyasu, K. Teranishi, Y. Uto,
and N. Shimomura
Tokushima University
2PA34 Study on inducing apoptosis and stimulating the
irreversible electroporation effect for tumor treatment
based on high frequency nanosecond pulsed electric field
B. Changhao1, X. Jin1, R. Shaoqin1, K. Dongdong2, L. Qing2,
S. Guanbin2, M. Yan1, and T. Xuefeng1
1
School of Electrical Engineering, Chongqing University
2
Bioengineering College of Chongqing University
55
2PA35 A uniform electric field producing microfluidic chip for
study and analysis of irreversible electroporation
L. Gong, C. Yao, Y. Lv, Y. Mi, and C. Li
Chongqing University
2PA36 Experimental study on variations of rabbit tissue
impedance during irreversible electroporation ablation
S. Dong, C. Yao, L. Gong, Y. Zhao, X. Liu, and Y. Lv
Chongqing University
2PA37 Research of muscle contraction and the effects of tissue
ablation in vivo exposed to high-frequency electric fields
S. Dong, C. Yao, Y. Zhao, Y. Lv, H. Liu, Y. Mi, and C. Li
Chongqing University
2PA38 Auto-tuning oscillator for the generation of nonthermal
plasma as a therapeutic treatment for melanoma
K. Thompson1, J. Zirnheld1, K. Burke1, and S. Zucker2
1
The State University of New York at Buffalo
2
D'Youville College
2PA39 Pulsed power as the main tool of energy-efficient nonthermal microbiological decontamination
E. Agarwal
Institute of Applied Physics
2PA40 Effect of the number of inner wire electrodes on
surfactant treatment using nanosecond pulsed powers
M. Morimoto, K. Shimizu, K. Teranishi, and N. Shimomura
Tokushima University
2PA41 Effects of algae on the flashover performance of
insulators covered with RTV-coating
Y. Li1, X. Zhang1, X. Yang2, and L. Liu1
1
Electric Power Research Institute of State Grid Sichuan
Electric Power Company
2
State Grid Chengdu Power Supply Company
2PA42 Electric pulse parameter exploration for lipid extraction
from microalgae
M. Mulligan, S. Das, A. Fairbanks, L. A. Sherman, A.
Garner, A. Shay, and J. Myers
Purdue University
2PA43 Effect of brine and temperature in sterilization using
nanosecond pulsed electric field for packaged fresh foods
K. Saito, K. Hoki, and Y. Minamitani
Yamagata University
2PA44 Evaluation of rotational and vibrational temperature of
nanosecond pulsed surface discharge on water
T. Sadamatsu, T. Furusato, H. Koreeda, T. Fujishima, and T.
Yamashita
Nagasaki University
56
2PA45 Treatment of aqueous pollutant by a discharge plasma
reactor using a porous membrane
T. Mori, T. Ishikawa, and T. Kiyan
Kindai University
2PA46 Observation of discharges in NOx treatment reactor
using nanosecond pulsed powers and the reactor
improvement
K. Omatsu, R. Arai, M. Morimoto, K. Teranishi, and
N. Shimomura
Tokushima University
2PA47 Down hole pulse generator must survive 300 °C at 9 km
depth: low-cost access to ubiquitous geothermal heat
worldwide
W. Leighty
The Leighty Foundation
2PA48 Impact of wind on pollution accumulation rate on
outdoor insulators near shoreline
M. M. Hussain1, S. Farokhi1, S. McMeekin1, and
M. Farzaneh2
1
Glasgow Caledonian University
2
INGIVRE, Université du Québec à Chicoutimi
Poster Session 2B:
Opening and Closing Switches
Thursday, July 7, 2016 13:30 –15:00 Presidio
Session Chair: Scott Rice, Michigan State University
2PB1 Thyristor based switches triggered in impact-ionization
wave mode
A. Gusev, S. Lyubutin, S. Rukin, S. Tsyranov
Institute of Electrophysics UB RAS
2PB2 Research on transient junction temperature rise of pulse
thyristor
J. Hu, L. Dai, F. Lin, Y. Yang, and Z. Qin
Huazhong University of Science and Technology
2PB3 Thyratron replacement
M. Gaudreau, I.Roth, and M. Kempkes
Diversified Technologies, Inc.
2PB4 Effect of conductive screens on the stabilization of plasma
channels with currents of hundreds kiloamps
V. Bochkov1, D. Bochkov1, S. Krivosheev2, and Y. Adamian2
1
Pulsed Technologies ltd.
2
Peter the Great St.Petersburg Polytechnic University
57
2PB5 Delayed avalanche breakdown of high-voltage Si diodes:
scenarios and mechanisms of picosecond-range switching
P. Rodin1, A. Minarsky2, M. Ivanov1, and I. Grekhov1
1
Ioffe Institute, Russian Academy of Sciences
2
Saint-Petersburg Academic University
2PB6 Evaluation of high voltage SiC PIN diode with robust
field edge termination as an opening switch device
S. Soloviev1, R. Ghandi1, A. Elasser1, and J. M. Sanders2
1
GE Global research
2
Transient Plasma Systems
2PB7 Characterization of high voltage 4H-SiC IGBTs with wide
epitaxial drift regions
M. Hinojosa and A. Ogunniyi
Army Research Laboratory
2PB8 Test results of a 7.5 kA semi-conductor prototype switch
as modular switchgear in energy extraction systems for
the HL-LHC magnet test bench circuits
G. J. Coelingh1, P. F. Austness1, M. Bednarek1, K. DahlerupPetersen1, A. Dinius1, A. Erokhin2, M. Favre1, V. D.
Karaventzas1, S. Michniuk1, B. Panev2, S. Pemberton1,
F. Rodriguez Mateos1, R. B. Rutgers1, G. Seweryn1, and R.
Suykerbuyk1
1
CERN
2
AGH-UST
2PB9 A high-current, IGBT-based static switches for energy
extraction in superconducting power circuits
K. Dahlerup-Petersen1, G. J. Coelingh1, A. Dinius1,
A. Erokhin2, and F. Rodriguez Mateos1
1
CERN
2
AGH-UST
2PB10 Characteristics of GaAs PCSS triggered by laser diode
array
X. Zhu, K. Liu, J. Qiu, and C. Zhang
Fudan University
2PB11 Investigation on discharge mechanism of a particle beam
triggered gas switch
W. H. Tie1, T. Wang2, Y. Zhang2, C. Guo2, and Q. G Zhang2
1
Xi’an Electronic Engineering Research Institute
2
Xi'an Jiaotong University
58
2PB12 Pulse series generation based on the resistive load of
neutron source type
O. Egorov
TRINITI
2PB13 A new soft switch circuit to improve the efficiency of a
solid-state Marx generator
Y. Wang, Q. Zhou, J. Qiu, and K. Liu
Fudan University
2PB14 An explosive pulsed power source based on ferroelectric
generators and electrical exploding opening switches
Y. Wu
Institute of Fluid Physics, Chinese Academy of Science
2PB15 Research on the working gas pressure of spark gap switch
in high power laser system
H. Zeng1, H. Wu2, D. Zou1, W. Liu3, and X. Zhang4
1
East China Jiaotong University
2
Maintenance Branch of Jiangxi Electric Power Company
3
Jiangxi Electric Power Design Institution
4
Shanghai Qiyi Electronics Technology Co., Ltd
2PB16 Novel GSSA modeling of switching functions and control
of high power voltage source inverters (VSI) for advanced
aircraft electric power systems
H. Ebrahimi and H. El-Kishky
The University of Texas at Tyler
Poster Session 2C:
Solid State Power Modulators,
Components, Switches, and Systems
Thursday, July 7, 2016 13:30 –15:00 Marina
Session Chair: Ge Li, Institute of Plasma Physics, Chinese Academy
of Science
2PC1 Simulation and design trade-off analysis of 15 kV SiC
SGTO thyristor during extreme pulsed overcurrent
conditions
J. Schrock1, E. Hirsch1, A. Bilbao1, S. Lacouture1, W. Ray1,
S. Bayne1, M. Giesselmann1, A. Ogunniyi2, and H. O'Brien2
1
Texas Tech University
2
Army Research Laboratory
59
2PC2 Modeling and experiment research on turn-off
characteristics of pulse power thyristor
S. Tian, F. Lin, L. Dai, C. Jin, and Q. Zhang
Huazhong University of Science and Technology
2PC3 Driving circuitry with active voltage clamping across
IGBTs in a Marx configuration
M. Sack, M. Hochberg, and G. Mueller
Karlsruhe Institute of Technology
2PC4 Bridge topology as primary switch for magnetic pulse
compression circuit
C. Strowitzki
Mlase AG
2PC5 Evaluation of long term reliability and safe operating
area of 15 kV SiC PiN diodes during ultra-high current
pulsed conditions
E. Hirsch1, J. Schrock1, S. Lacouture1, A. Bilbao1, S. Bayne1,
M. Giesselmann1, H. O'Brien2, and A. Ogunniyi2
1
Texas Tech University
2
Army Research Laboratory
2PC6 SILVACO based electro-thermal analysis of 4H-SiC TIVJFET structure under extremely high current density
resistive switching
B. Pushpakaran1, S. Bayne1, and A. Ogunniyi2
1
Texas Tech University
2
Army Research Lab
2PC7 The design of a new explosive DC breaker using
electromagnetic forming technology
T. Ding, W. Huang, B. Zhang, L. Wang, X. Li, Q. Cao, X.
Han, L. Li, and Y. Pan
Huazhong University of Science and Technology
2PC8 Design and operation of pulsed power systems built to
ESS specifications
I. Roth, M. Gaudreau, and M. Kempkes
Diversified Technologies, Inc.
2PC9 Stacked multi-level long pulse modulator topology for
ESS
M. Collins1, C. De Almeida Martins2, and A. Reinap1
1
Lund University
2
European Spallation Source
2PC10 Design and initial measurements of a 12.5 kV prototype
inductive adder for CLIC DR kickers
J. Holma, M. Barnes, and T. Fowler
CERN
60
2PC11 A modular 200 kW – 25 kV DC medium frequency
resonant converter for RF power amplifiers
X. A. Bonnin, D. Aguglia, L. De Mallac, and S. Pittet
CERN
2PC12 Simulation and design of the multi-channel isolated
charging for solid-state Marx generators
J. Xia1 and J. Qiu2
1
Huanggang Polytechnic College
2
Fudan University
2PC13 Design of high-voltage nanosecond fast repetitive pulse
generator based on avalanche transistor
S. Akram and Guangning Wu
Southwest Jiaotong University
2PC14 Design of 40 kV, 300 µs, 200 Hz solid-state pulsed power
modulator for long pulse applications
H. J. Ryoo1, S. R. Jang2, and C. H. Yu2
1
Chung-Ang University
2
Korea Electrotechnology Research Institute
Oral Session 7:
Super Invited I
Thursday, July 7, 2016 15:30 – 17:30 Ralston Ballroom
Session Chair: Dan Schweickart, Air Force Research Laboratory
15:30 7O1 – 7O4, invited
Space charge and its role in electric breakdown of solid
insulation
G. Chen1,2, C. Zhou1, S. Li2, and L. Zhong2
1
The Tony Davies High Voltage Laboratory,
University of Southampton
2
State Key Laboratory of Electrical Insulation for Power
Equipment,
Xian Jiaotong University
16:30 7O5 – 7O6, invited
Review on the electrical contacts of pantograph-catenary
system in high-speed railway
Wenfu Wei, Guoqiang Gao, Guangning Wu
Southwest Jiaotong University
61
17:00 7O7 – 7O8, invited
Aqueous reactive species induced by surface discharges in
N2/O2/H2O gas mixtures
D. Liu1, Z. Liu1, X. Wang1, and M. G. Kong1,2
1
State Key Laboratory of Electrical Insulation and Power
Equipment, Center for Plasma Biomedicine, Xi’an Jiaotong
University
2
Frank Reidy Center for Bioelectrics, Old Dominion
University
Friday, July 8, 2016
Plenary 3
Friday, July 8, 2016 08:15 – 9:30 Ralston Ballroom
Session Chair: Luis Redondo, Lisbon Superior Engineering Institute
08:15 PL3
Pulsed Power at Loughborough University
B. Novac
Loughborough University.
Oral Session 9:
High Power Microwaves
Friday, July 8, 2016 10:00 – 12:00 Ralston Ballroom
Session Chair:
Nick Jordan, University of Michigan
10:00 9O1 – 9O2, invited
Recent experiments on the recirculating planar
magnetron
N. M. Jordan1, G. B. Greening1, S. C. Exelby1, B. W. Hoff2,
Y. Y. Lau1, and R. M. Gilgenbach1
1
University of Michigan
2
Air Force Research Laboratory
10:30 9O3
Development of a compact narrow-band high power
microwave system
R. Vezinet, F. Lassalle, J. C. Diot, S. Tortel, A. Morell, A.
Loyen, A. Catrain, and A. Paupert
CEA DAM, Gramat
62
10:45 9O4
Development of a portable, high power microwave system
D. Barnett, C. Lynn, P. Kelly, J. Dickens, A. Neuber, and J.
Mankowski
Texas Tech University
11:00 9O5 – 9O6, invited
Study of the electric field screening effect on nine carbon
fiber field emitters with non-uniform height
W. Tang1, D. Shiffler1, M. LaCour2, K. Golby2, and T.
Knowles3
1
Air Force Research Laboratory
2
Leidos Inc.
3
Energy Science Laboratories Inc.
11:30 9O7
600 kV bipolar output Tesla-Blumlein generator with
frequency bandwidth > 1 GHz
B. Novac1, M. Wang1, L. Pecastaing2, P. Senior1, and
I. Smith1
1
Loughborough University
2
Pau University
11:45 9O8
Evaluation of hybrid bouncer systems for high precision
klystron modulators
X. A. Bonnin and D. Aguglia
CERN
Oral Session 10:
Dielectrics, Insulation, & Breakdown II
Friday, July 8, 2016 10:00 – 12:00 Gold Ballroom
Session Chair: Kevin Burke, The State Univeristy of New York at
Buffalo
10:00 10O1
Effect of high voltage impulses on change of partial
discharge characteristics in oil-impregnated paper for
online diagnostics
R. Nikjoo, N. Taylor, and H. Edin
KTH Royal Institute of Technology
63
10:15 10O2
The mechanism of SF6 decomposition characteristics
under partial discharge at different gas pressures and
voltage
K. Liu, S. Ji, L. Zhong, and L. Zhu
Xi’an Jiaotong University
10:30 10O3
Partial discharges in synthetic ester-pressboard dielectric
C. Thirumurugan
IIT Mandi
10:45 10O4
Investigation of model transformer insulation behavior
during PD activity in di-benzo-di-sulfide sulphur
contaminated transformer oil using online tanδ
measurement
S. Kumar1, R. Balaiah2, and S. Kumar3
1
Sri Siddhartha Institute of Technology
2
P. E. S. College of Engineering
3
ABB
11:00 10O5
Electron stimulated gas desorption of some dielectrics in
vacuum
B. P. Song1, G. Q. Su1, G. J. Zhang2, J. Ikeda3, and Y.
Yamano3
1
State Key Laboratory of Electrical Insulation and Power
Equipment,
School of Electrical Engineering, Xi’an Jiaotong University
2
Xi’an Jiaotong University
3
Saitama University
11:15 10O6
Ferrimagnetic material testbed for coaxial nonlinear
transmission lines
C. Anderson, J. Parson, and C. Hettler
Scientific Applications and Research Associates, Inc.
11:30 10O7
Stability characteristics of gas filled surge arrester in
gamma- and x-radiation field
K. Stankovic
University of Belgrade
64
11:45 10O8
Experimental study on oil well stimulation by dynamic
shock wave induced by liquid pulsed current discharge
Y. Liu, Z. Li, X. Li, Q. Z., H. Li, L. Dai, and F. Lin
Huazhong University of Science and Technology
Poster Session 3A:
Plasma, Lasers, and Electromagnetic
Launchers
Friday, July 8, 2016 13:30 –15:00 Twin Peaks
Session Chair: Peng Zhang, Michigan State University
3PA1 Introduction to non-magnetically confined fusion plasma
torch-device
B. Gutman, G. Villanova, and N. Belluccia
State University of New York, Nassau Community College
3PA2 High gain fusion plasmas in Tokamaks
G. Li
University of Science and Technology China
3PA3 Design of a 5.5 MJ charge dump power supply for the
PPPL FLARE experiment
P. Melnik1, A. Bushnell1, S. Woodruff1, T. Ziemba2, A. Gao3,
F. Hoffman3, J. Jara-Almonte3, H. Ji3, M. Kalish3, K. Miller2,
P. Sieck1, and J. Stuber1
1
Woodruff Scientific Inc
2
Eagle Harbour Technologies
3
Princeton Plasma Physics Laboratory
3PA4 Design of a compulsator to drive a railgun
A. Kulkarni and M. Joy Thomas
Indian Institute of Science, Bangalore
3PA5 Feasibility study of using lithium iron phosphate battery
as a 1 GW class pulse power system for navy railgun
S. S. M. Chung
National Yang-Ming University
3PA6 Design and implementation of a hierarchical control
system architecture for a modular pulsed power supply
system
E. Durna, Y. Çevik, M. Karagöz, and A. Civil
Aselsan Inc.
65
3PA7 Research on 24 MJ PFN for electromagnetic launch
discharged in sequence
C. Jin, L. Dai, Q. Zhang, S. Tian, and F. Lin
Huazhong University of Science and Technology
3PA8 Polytetrafluoroethylene films surface treatment of
atmospheric pressure three-dielectric-layer barrier
discharge plasma driven by sub-microsecond repetitive
pulses
X. Li, J. Li, Y. Xie, P. Dong, J. Long, and L. Zhang
China Academy of Engineering Physics
3PA9 Research of airflow control using surface dielectric
barrier discharge plasma at atmosphere pressure
L. Yang, C. Ren, and H. Yan
Dalian University of Technology
3PA10 Study of accelerating surface charge dissipation on epoxy
treated by dielectric barrier discharge
Y. Ma, B. Hai, C. Zhang, C. Ren, and T. Shao
Institute of Electrical Engineering, Chinese Academy of
Science
3PA11 Study of the corona effect: application to the ionocraft
L. Veron1 and P. Veron2
1
CEA
2
CPGE l'Essouriau
3PA12 Spectral mapping of the corona discharge
G. Avhad, H. Bahirat, and S. Kulkarni
IIT Bombay
3PA13 Experimental investigation on humidity effects on the
variations of positive DC corona discharge
X. Zhang, B. Xingming, X. Cui, and T. Lu
North China Electric Power University
3PA14 Development of high-power gas discharge and electronic
vacuum devices for pulsed electrophysics: current status
and prospects
V. Bochkov, D. Bochkov, V. Dyagilev, P. Panov, V.
Teryoshin, V. Ushich, and I. Vasiliev
Pulsed Technologies Ltd.
3PA15 Discharge analysis of EAST H-mode for compressed
plasma
Q. Hang and G. Li
Institute of Plasma physics, Chinese Academy of Sciences
66
3PA16 Mode transition in microsecond-pulse gliding discharges
at atmospheric pressure
Z. Niu, C. Zhang, R. Wang, and T. Shao
Institute of Electrical Engineering, Chinese Academy of
Science
3PA17 The characteristics of repetitive frequency discharge of
plasma synthetic jet actuators
L. Han, T. Shao, C. Ren, C. Zhang, L. Wang, and P. Yan
Institute of Electrical Engineering, Chinese Academy of
Sciences
3PA18 Motion behavior of free conducting wire-type particles in
SF6 gas under DC voltage
H. You, Q. Zhang, C. Guo, T. Wen, J. Ma, and Y. Qin
Xi’an Jiaotong University
3PA19 Improvement of ozone producing coaxial reactor by
tensioned inner wire electrode in using nanosecond pulsed
power
T. Ikemoto, M. Morimoto, T. Ninomiya, K. Teranishi, and N.
Shimomura
Tokushima University
3PA20 Generation and characterization of a pulsed dense plasma
with helium
T. Manegold, M. Iberler, J. Wiechula, and J. Jacoby
Goethe University Frankfurt
3PA21 Self-sustaining conditions for nanosecond pulsed volume
discharges under airflows
L. Wei, M. Tang, and Z. Chaohai
Harbin Institute of Technology
3PA22 Pre-ionization roles of upstream
downstream discharges under airflows
Y. Ding, Z. Desheng, and Z. Chaohai
Harbin Institute of Technology
discharges
for
3PA23 Spatial resolved observation of repetitive nanosecond
volume discharges under airflows
T. Jingfeng, Z. Nan, and Y. Daren
Harbin Institute of Technology
3PA24 Effects of increasing the repetition rate in nitrogen oxides
treatment using pulsed discharge plasma
T. Ishikawa, T. Mori, and T. Kiyan
Kindai University
67
3PA25 Nanosecond pulse discharges in an inhomogeneous
electric field in atmospheric air
T. Shao, C. Zhang, R. Wang, and C. Ren
Institute of Electrical Engineering, Chinese Academy of
Science
3PA26 Optical and illuminant characteristics of nanosecondpulse diffuse discharges in a point-to-point gap
C. Zhang, Z. Niu, T. Shao, R. Wang, and P. Yan
Institute of Electrical Engineering, Chinese Academy of
Sciences
3PA27 Electric pulse parameter and electrode geometry impact
on plasma formation
A. L. Garner, R. S. Brayfield, II, A. J. Fairbanks, K. P.
Newnam, S. M. Sanders, R. Jagannath, B. Singh, B.-S. Chen,
and S. P. M. Bane
Purdue University
3PA28 Plasma-assisted combustion technology using nanosecond
pulsed power
R. Nakamura, H. Akiyama, and T. Sakugawa
Institute of Pulsed Power Science, Kumamoto University
3PA29 Effect of distance between electrodes for water treatment
by plasma
T. Sugai1, P. T. Nguyen1, A. Tokuchi2, and W. Jiang1
1
Nagaoka University of Technology
2
Pulsed Power Japan Laboratory
3PA30 Behavior of pulsed streamer discharges in flowing water
M. Akiyama1, M. Fue1, T. Oikawa1, K. Takaki1,
A. Yamamoto2, and H. Akiyama2
1
Iwate University
2
Kumamoto University
3PA31 Study on the characteristics of the shock wave induced by
underwater pulsed current discharge
Z. Y. Li, Y. Liu, X. Li, F. Lin, Y. Pan, and Q. Zhang
Huazhong University of Science and Technology
3PA32 Generation of intensive directed controlled
radiation during cavitation of fast liquid stream
V. Vysotskii1 and A. Kornilova2
1
Kiev National Shevchenko University
2
Moscow State University
68
x-ray
3PA33 Tandem free electron x-ray laser
relativistic particles
V. Vysotskii and M. Vysotskyy
Kiev National Shevchenko University
on
channeling
3PA34 Observation of underwater pulse discharge and influence
of deposited energy on shock wave
X. Li, F. Lin, Y. Pan, Y. Liu, Z. Li, and Q. Zhang
Huazhong University of Science and Technology
3PA35 Experiments about discharge in water with changing
conductivity and applied voltages
M. Fue1, T. Oikawa1, R. Ogata1, M. Akiyama1, and H.
Akiyama2
1
Iwate University
2
Kumamoto University
3PA36 The movement of bubbles on high repetition discharges in
tap water
T. Oikawa, M. Akiyama, M. Fue, and R. Ogata
Iwate University
3PA37 Effect of solution electric conductivity on surfactant
treatment using nanosecond pulsed powers
K. Shimizu, M. Morimoto, K. Teranishi, and N. Shimomura
Tokushima University
3PA38 Separation process of plastic and metal from CD-R using
pulsed power
T. Yamashita1, H. Akiyama2, T. Sakugawa2, and
S. H. R. Hosseini2
1
Graduate School of Science and Technology, Kumamoto
University
2
Institute of Pulsed Power Science, Kumamoto University
3PA39 Effects of pulsed magnetic field on performances of
semiconductor devices
Y. Yang, L. Dai, J. Hu, Q. Zhang, and F. Lin
Huazhong University of Technology and Science
3PA40 The development of three stage electromagnetic forming
facility and its timing control system
X. Han, J. Shi, T. Ding, Q. Chen, L. Li, J. Xie, and Q. Cao
Huazhong University of Science and Technology
3PA41 Optical diagnostics of single-wire electrical explosion in
vacuum
H. Shi, X. Zou, and X. Wang
Department of Electrical Engineering, Tsinghua University
69
3PA42 Computer simulation evaluation of an electric current
impulse generator
M. Gonçalves1, E. Costa1, R. Freire1, J. Silva1, and J. Filho2
1
Federal University of Campina Grande
2
Eletrobras Distribution Piaui
3PA43 Coupled thermal-electrical simulation analysis for carbon
fiber composites exposed to lightning current impulse
based on deleting cell process
Z. Duan and Z. Li
Aviation Key Laboratory of Science and Technology on
High Intensity Electromagnetic Environment Protection
3PA44 PIC/DSMC simulation of radiation transport dynamics in
helium gas discharges
A. Fierro1, B. Scheiner2, C. Moore1, and M. Hopkins1
1
Sandia National Laboratories
2
University of Iowa
3PA45 Modeling and simulation of multipactor discharge on
dielectric window under HPM in vacuum
B. P. Song, G. J. Zhang, R. D. Zhou, G. Q. Su, and H. B. Mu
Xi’an Jiaotong University
3PA46 Quasi-analytical derivation of parallel-plate multipactor
trajectories in the presence of higher-order mode
perturbations
S. Rice and J. Verboncoeur
Michigan State University
3PA47 Screamer: an optimized pulsed-power circuit analysis tool
R. B. Spielman
Idaho State University
3PA48 Analysis of motion and discharge of the free conducting
wire particle in DC GIS
J. Wang, Q. Li, S. Liu, and Z. Wang
North China Electric Power University
Poster Session 3B:
High Voltage
Friday, July 8, 2016 13:30 –15:00 Presidio
Session Chair: Kefu Liu, Fudan University
3PB1 High voltage, fast kicker power supply
T. Ziemba, J. Prager, and K. Miller
Eagle Harbor Technologies, Inc.
70
3PB2 A linear transformer driver based on capacitive coupling
self-triggering mode
J. Qiu, K. Liu, and L. Yu
Fudan University
3PB3 High energy density power supply development at
NSWDCC
J. Chaparro, J. Krile, J. Shannon, and M. McQuage
Naval Surface Warfare Center Dahlgren
3PB4 Compact, battery powered supply and control integration
for HPRF systems
J. Krile, J. Chaparro, J. Shannon, and M. McQuage
Naval Surface Warfare Center Dahlgren
3PB5 Thermal and mechanical analysis of electromagnetic
loading on stainless steel structures content
A. W. Schreiber
Naval Surface Warfare Center Dahlgren
3PB6 High voltage radio frequency test facility for the
characterization of the dielectric strength in vacuum of
RF drivers for neutral beam injectors ion sources
A. Maistrello, P. Jain, M. Recchia, M. Bigi, E. Gaio, and
V. Toigo
Consorzio RFX
3PB7 High temperature carbon nanotubes (CNTs) based diode
turn-on with a pulsed radio frequency signal
M. Moxley, B. Yakupoglu, and H. Kirkici
Auburn University
3PB8 Design and experimental characterization of the
prototype of NIO1 high voltage power supply protection
system
M. Recchia1, B. Laterza1, G. Serianni1, and M. Cavenago2
1
Consorzio RFX
2
INFN-LNL
3PB9 To 50-year anniversary of pulse method: from a storm
impulse to the one-stage on-line regime
A. Mytnikov and V. Lavrinovich
Tomsk Polytechnical University
3PB10 Simulation of the transient overvoltage in HVDC scheme
during the operation of MRTB
L. Zhu1, Y. Song1, and Z. Zhao2
1
Xi’an Jiaotong University
2
State Power Economic Research Institute
71
3PB11 Development of simulation model for an HVDC link
joining MIS and DTS (Oman)
A. Jaradat and D. Pawar
Caledonian College of Engineering
3PB12 Influence factor on sweep frequency impedance to detect
winding deformation within power transformer
W. Jingfeng1, M. Chen1, H. Yanghua1, Y. Chuankai1, Y.
Fan2, and R. Fuqiang2
1
Shaanxi Electric Power Research Institute of State Grid
Corporation of China
2
State Key Laboratory of Electrical Insulation and Power
Equipment,
Xi’an Jiaotong University
3PB13 Simulation and practical study on charged detection of
transformer winding deformation
Y. Liu and Y. Tian
North China Electric Power University
3PB14 Winding deformation diagnosis of power transformer
based on oil tank vibration
F. Zhang, S. Ji, L. Zhu, Y. Shi, and Q. Xiong
Xi’an Jiaotong University
3PB15 Measurement uncertainty of fast pulse voltages
measurements with capacitive divider
U. Kovacevic1, D. Brajovic2, K. Stankovic1, and P.
Osmokrovic3
1
University of Belgrade
2
High School of Technical Sciences Čačak
3
State University of Novi Pazar
3PB16 Preprocessing method of online oil chromatographic data
based on adaptive wavelet analysis
Y. Zheng and S. Xiang
Electric Power Research Institute of State Grid Zhejiang
Electric Power Corporation
Poster Session 3C:
Plasma, Lasers, and Electromagnetic
Launchers
Friday, July 8, 2016 13:30 –15:00 Marina
Session Chair: Will White, Sandia National Laboratories
72
3PC1 The impact of airborne particulate matter concentration
on negative DC ground synthetic electric field in spring
season
X. Zhuansun1, N.Wang1, X. Bian2, Z. Zou2, X. Li3, Q. Xie2,
and L. Liu2
1
Shaanxi Electric Power Company Postdoctoral Scientific
Research Station
2
North China Electric Power University
3
State Grid Beijing Electric Power Company
3PC2 Evaluation of epoxy coated resistors in high voltage DC
surge environments
J. Zirnheld1, W. Glodzik II2, P. Casey1, A. Francis1,
K. Thompson1, K. Burke1, S. Olabisi3, and M. Singletary1
1
State University of New York at Buffalo
2
HVR-APC
3
Rochester Institute of Technology
3PC3 A new approach for optimal design of corona ring
R. M. R. Barros, E. G. Costa, J. F. Araujo, T. V. Ferreira, and
F. L. Medeiros
Federal University of Campina Grande
3PC4 Study of the silicone rubber used at the external
insulation of high voltage with laser-induced breakdown
spectroscopy (LIBS)
X. Wang, H. Wang, and Z. Jia
Graduate School at Shenzhen, Tsinghua University
3PC5 Partial discharge pattern recognition based artificial
neural network
S. Ghoneim1, H. Zaini1, K. Shoush1, and M. Abdelrahman2
1
Taif University
2
Helwan University
3PC6 Influence of HVDC converter operation on partial
discharge characteristics
M. Azizian Fard, A. J. Reid, and D. M. Hepburn
Glasgow Caledonian University
3PC7 The partial discharge inception and breakdown voltage
distribution of metal protrusion in SF6 gas
F. Guo and J. Li
Xi’an Jiaotong University
73
3PC8 Minimum-intrusive diagnosic system for SF6 high voltage
selfblast circuit breaker nozzles
T. Krampert, S. Wetzeler, and P. G. Nikolic
RWTH Aachen, Institut for High Voltage Technology
3PC9 Advanced method for detection of partial discharge in oilpaper insulated transformer bushings and current
transformers PIC/DSMC simulation of radiation
transport dynamics in helium gas discharges
Y. Xu1, W. Liu1, W. Gao1, and X. Zhang2
1
Tsinghua University
2
Guangzhou Power Supply Bureau Co. Ltd.
3PC10 Separation of mixed PD UHF signals in GIS by using
cumulative energy function feature extraction
X. Shao1, W. He2, and S. Wang2
1
Research Institute of State Grid Zhejiang Electric Power
Company,
State Key Lab of Electrical Insulation and Power Equipment,
Xi’an Jiaotong University
2
Research Institute of State Grid Zhejiang Electric Power
Company
3PC11 Partial discharge under PWM stress-type conditions
P. Romano1, A. Madonia1, B. D’Agostino2, F. Viola1, R.
Miceli1, and A. Imburgia1
1
Palermo University
2
Prysmian Group S.p.A.
3PC12 Temperature investigation of electric arc discharges in
medium-voltage switchgear
T. Knautz1 and S. Ettingshausen2
1
Goethe-Universität Frankfurt
2
Siemens AG Germany
3PC13 Life expectancy determination of form-wound coil
isolation of high-voltage motor
I. Jeftenic1, N. Kartalovic2, B. Loncar3, and K. Stankovic4
1
Faculty of Electrical Engineering, University of Belgrade
2
Nikola Tesla Institute of Electrical Engineering, University
of Belgrade
3
Faculty of Technology and Metallurgy, University of
Belgrade
4
University of Belgrade
74
3PC14 Lightning strike discharge simulation test research on
shielding characteristic of lightning rod
Z. Duan and Z. Li
Aviation Key Laboratory of Science and Technology on
High Intensity Electrophysics Environment Protection
3PC15 Research on a new type of lightning protection device for
distribution network based on the principle of multishort-gaps
T. Guo1, S. Lin1, W. Zhou1, C. Zhang2, Z. Qin2, H. Li1
1
School of Electrical Engineering Wuhan University
2
State Grid Electric Power Research Institute
3PC16 The effects of lightning discharges on control and
communication cables and antenna systems
A. Civil
Aselsan Inc.
Oral Session 11:
Plasma, Discharges, & Electromagnetic
Phenomena
Friday, July 8, 2016 15:30 – 17:30 Ralston Ballroom
Session Chair:
Walter Sessions, Georgia Technical Research Inst.
15:30 11O1
Effects of temperature dependence of electrical and
thermal conductivities on the heating of a one
dimensional conductor
F. Antoulinakis1, D. Chernin2, P. Zhang1, and Y. Y. Lau1
1
University of Michigan
2
Leidos, Inc.
15:45 11O2
Transient electromagnetic field reconstruction from sets
of non-periodic oscillations
W. Feilner, A. Neuber, Z. Shaw, C. Lynn, and J. Dickens
Texas Tech University
16:00 11O3
Electric field analysis of different compact electrodes for
high voltage pulsed electric field applications in liquid
food
R. Ramaswamy and R. P. Ramachandran
B.S. Abdur Rahman University
75
16:15 11O4
Pulsed plasmas for two environmental applications:
power-to-methane and pollution control
B. van Heesch1, W. Hoeben2, F. Beckers2, T. Huiskamp2,
A. Parastaev3, E. Hensen3, G. Pemen2, and P. Vissers2
1
Technische Universiteit Eindhoven
2
Technische Universiteit Eindhoven-EES
3
Technische Universiteit Eindhoven-SMK
16:30 11O5
Improvement on the ionization rate of hall thruster with
high voltage
Y. Ding, S. Guoshun, and X. Junnan
Harbin Institute of Technology
16:45 11O6 – 11O7, invited
Discharge properties of microsecond pulse driven argon
plasma jet arrays
R. Wang, Y. Gao, Y. Shen, X. Hou, C. Zhang, and T. Shao
Institute of Electrical Engineering, Chinese Academy of
Science
17:15 11O8
Evolution of partial discharge of oil-paper insulation
under long-term AC voltage
Y. Cui1, P. Cao1, S. Ji1, F. Zhang1, and P. Peng2
1
Xi'an Jiaotong University
2
Hunan Electric Power Research Institute
Oral Session 12:
Solid State Power Modulators, Components, and Systems
Friday, July 8, 2016 15:30 – 17:30 Gold Ballroom
Session Chair:
Steve Glover, Sandia National Laboratories
15:30 12O1
Tailoring high-voltage, high-current thyristors for very
high frequency switching
H. Sanders and J. Waldron
Silicon Power Corporation
76
15:45 12O2
An all solid-state inductively-driven radiation-resistant
modulator for fast-kicker magnet applications
C. Yeckel, R. Cassel, M. Stangenes, and P. Holen
Stangenes Industries
16:00 12O3
The design and testing of an inductive voltage adder for
ALS-U kicker magnets
W. Waldron, C. Pappas, W. Ghiorso, and J. Galvin
Lawrence Berkeley National Laboratory
16:15 12O4 – 12O5, invited
Solid-state Marx generator for CLIC breakdown studies
L. Redondo1, A. Kandratsyeu2, M. Barnes3, S. Calatroni4, and
W. Wuensch5
1
Lisbon Engineering Superior Institute
2
EnergyPulse Systems
3
ABT Group, TE Department, CERN
4
VSC Group, TE Department, CERN
5
RF Group, BE Department, CERN
16:45 12O6
Performance analysis of an all solid state linear
transformer driver (LTD)
L. Collier, J. Dickens, J. Mankowski, and A. Neuber
Center for Pulsed Power and Power Electronics,
Texas Tech University
17:00 12O7
Analysing a gate-boosting circuit for fast switching
M. Hochberg, M. Sack, and G. Mueller
Karlsruhe Institute of Technology
17:15 12O8
Research on solid-state pulsed power system for dielectric
wall accelerator
Y. Liu, L. Xia, W. Wang, H. Zhang, Y. Chen, M. Ye, C.
Yang, J. Shi, and L. Zhang
Institute of Fluid Physics, China Academy of Engineering
Physics
77
AUTHOR INDEX
A
Abdelrahman, Mohamed
3PC-5
Adamian, Yury
2PB-4
Agarwal, Elena
2PA-39
Aguglia, Davide
1PA-4,2PC-11,WS-1,WS-3,9O-8
Akemoto, Mitsuo
1PA-1,1PA-2
Akiyama, Hidenori
5O-8,3PA-28,3PA-30,3PA-35,3PA-38
Akiyama, Masahiro
1PA-18,3PA-30,3PA-35,3PA-36
Akram, Shakeel
1O-4,2PC-13
Aldan, Manuel
1PB-1
Anderson, Charlie
10O-6
Antoulinakis, Foivos
11O-1
Arai, Ryoutarou
2PA-46
Araujo, Jalberth
3PC-3
Argyropoulos, Theodoros
1PA-33
Artemenko, Sergey
1PA-14
Austness, Paal
2PB-8
Avhad, Ganesh
3PA-12
Awe, Thomas
2O-5
B
Babu, Silambuarasan
1PC-18
Bahirat, Himanshu
3PA-12
Balaiah, Ramachandra
1PB-16,10O-4
Bane, Sally
3PA-27
Bankowski, Elena
4O-3
Barnes, Mike
2PC-10,12O-4
Barnett, David
1PA-3,9O-4
Barros, Rafael
3PC-3
Barroso, Joaquim
1PA-26,1PA-27
Batalović, Mirza
1PB-15
Bayne, Stephen
4O-1,2PA-10,2PA-16,2PC-1,2PC-5,2PC-6
Beckers, Frank
1PB-8,11O-4
Bednarek, Mateusz
2PB-8
Belluccia, Nicholas
3PA-1
Benitez, Ivón
6O-4
78
Benwell, Andrew
Berny-Lang, Michelle
Beroual, Abderrahmane
Bešlija, Dejan
Beverly, Robert
Bharanikumar, Amirthavalli
Bian, Xingming
Biela, Juergen
Bigi, Marco
Bilbao, Argenis
Blaszczyk, Pawel
Blume, Sebastian
Bochkov, Dmitriy
Bochkov, Victor
Bonnin, Xavier
Borrias, Thomas
Brajovic, Dragan
Brayfield, Russell
Brijmohan, B.
Brocato, Robert
Brunkov, Pavel
Brylevskiy, Viktor
Burke, Kevin
Burkhart, Craig
Bushnell, Andrew
Byman, Jeremy
1PA-21
5O-1
1PB-5,1PB-7
1PA-45,1PB-15
1PA-14
1PC-18
1PA-41,3PC-1
4O-7,6O-2
3PB-6
2PA-10,2PA-16,2PC-1,2PC-5
1PC-2
6O-2
2PB-4,3PA-14
2PB-4,3PA-14
2PC-11,9O-8
2PA-27
3PB-15
3PA-27
2PA-4
4O-5
3O-6
3O-6
1PC-6,1PC-7,2PA-38,3PC-2
WS-3
3PA-3
1PA-7,2PA-20
C
Caiafa, Antonio
Calatroni, Sergio
Cao, Pei
Cao, Quanliang
Carlos, Montoya
Carmichael, Sabrina
Carver, Adam
Casey, Peter
Cassel, Richard
5O-1
12O-4
1PC-5,11O-8
2PC-7,3PA-40
1PC-16
5O-1
2PA-23
3PC-2
12O-2
79
Castle, Jason
Castle, Ormond
Catrain, Alexandre
Cavenago, Marco
Çevik, Yasin
Challapan, Cijith
Changhao, Bian
Chaohai, Zhang
Chaparro, Jordan
Chen, Bang-Shiuh
Chen, Dong-Qun
Chen, George
Chen, Mao
Chen, Ming
Chen, Qi
Chen, Yi
Chen, Yuxuan
Chernin, David
Chetan, Chetan
Cholakh, Seif
Chowdhury, Animesh
Chuankai, Yang
Chung, Shen
Chuvatin, Alexandre
Civil, Anil
Coelingh, Gert
Cohen, Isaac
Coley, Roman
Collier, Landon
Collins, Max
Cope, David
Costa, Edson
Cotton, Ian
Coulibaly, Mamadou-Lamine
Cravey, Hunter H.
Cui, Xiang
Cui, Yanjie
5O-4
2PA-23
9O-3
3PB-8
3PA-6
1PC-18
2PA-34
3PA-21,3PA-22
3PB-3,3PB-4
3PA-27
1PB-3
1O-1,7O-1
3PB-12
1PB-9
3PA-40
12O-8
1PA-38,1PA-43
11O-1
2PA-4
1PC-12
3O-4
3PB-12
3PA-5
2O-5
3PA-6,3PC-16
2PB-8,2PB-9
2PA-17,2PA-18
2PA-25
12O-6
2PC-9
2PA-14
3PA-42,3PC-3
4O-8
1PB-7
1PA-29,1PA-30
3PA-13
1PC-5,11O-8
80
Cuneo, Michael
Curry, Randy
PL-1,2O-5
1O-7,1PA-36
D
D'Agostino, Bartolomeo
3PC-11
Dahlerup-Petersen, Knud
2PB-8,2PB-9
Dai, Ling
2PB-2,2PC-2,10O-8,3PA-7,3PA-39
Daren, Yu
3PA-23
Darr, Adam
5O-1,2PA-31
Das, Shriya
2PA-42
Davis, Brian
5O-4
Davis, J.
PL-1
Decker, Franz-Josef
1PA-21
Delgiusto, Paolo
1PA-22
Delić, Sead
1PA-45
Desheng, Zhou
3PA-22
Dhanabal, Agniprakash
5O-7,2PA-32
Dickens, James
1PA-3,1PA-29,1PA-30,1PA-31,3O-4,
9O-4,11O-2,12O-6
Ding, Tonghai
2PC-7,3PA-40
Ding, Weidong
1PA-17
Ding, Yongjie
3PA-22,11O-5
Ding, Yuqin
1PC-9,1PC-10,1PC-11
Dinius, Arend
2PB-8,2PB-9
Diot, Jean-Christophe
9O-3
Dipal, Dipal
2PA-4
Dodson, David
2PA-17
Dominguez, Felipe
1PA-35
Dong, Pan
3PA-8
Dong, Pingping
1PA-39
Dong, Qing
2PA-18
Dong, Shoulong
2O-2,2PA-29,2PA-36,2PA-37,5O-6
Dongdong, Kuang
2PA-34
Dorrbercker, Santiago
6O-4
Du, Qiandong
1PA-40,1PA-42
Duan, Zemin
6O-8,3PA-43,3PC-14
Durna, Emre
3PA-6
81
Dyagilev, Vladimir
3PA-14
E
Ebert, Ute
Ebrahimi, Hadi
Edin, Hans
Egorov, Oleg
El-Kishky, Hassan
Elasser, Ahmed
Emlin, Rafail
Erokhin, Alexandre
Espino-Cortes, Fermin
Ettingshausen, Sven
Exelby, Steven
Eymin, Cedric
1PB-8
2PA-19,2PB-16
10O-1
3O-5,2PB-12
2PA-19,2PB-16
3O-1,2PB-6
1PC-12
2PB-8,2PB-9
1PC-16
3PC-12
9O-1
1PA-33
F
Fabris, Alessandro
Fairbanks, Andrew
Falcon, Ross
Fan, Ailong
Fan, Guo
Fan, Yang
Fang, Lu
Fard, M. Azizian
Farokhi, Shahab
Farzaneh, Masoud
Favre, Mathieu
Feilner, William
Ferreira, Tarso
Field, Ella
Fierro, Andrew
Filho, José
Flicker, Jack
Florkowski, Marek
Floyd, Zack
Fowler, Tony
1PA-22
2PA-31,2PA-42,3PA-27
2O-5
1O-8
1PA-15
3PB-12
4O-5
3PC-6
2PA-48
1O-6,2PA-48
2PB-8
1PA-31,11O-2
6O-4,3PC-3
2O-5
3PA-44
3PA-42
4O-5
1PC-2
2PA-25
1PA-35,2PC-10
82
Francis, Akeem
Freire, Raimundo
Frelinger, Andrew
Fu, Rongyao
Fue, Masatoshi
Fujishima, Tomoyuki
Fuqiang, Ren
Furusato, Tomohiro
1PC-6,3PC-2
3PA-42
5O-1
1O-8
1PA-18,3PA-30,3PA-35,3PA-36
1O-5,2PA-44
3PB-12
1O-5,2PA-44
G
Gaio, Elena
Gajula, Veda
Galvin, James
Gao, Andy
Gao, Guoqiang
Gao, Jingming
Gao, Lijuan
Gao, Meng
Gao, Wensheng
Gao, Xin
Gao, Yuan
Garcia, Carlos
Garner, Allen
3PB-6
1PC-13
12O-3
3PA-3
7O-5
1PA-13
1PA-39
1PC-9,1PC-10,1PC-11
3PC-9
2PA-2
11O-6
1PA-20
5O-1,5O-4,5O-7,2PA-31,
2PA-32,2PA-42,3PA-27
2PA-14,2PB-3,2PC-8
2PA-32
1PA-19
6O-2
5O-1
2PB-6
1O-6
12O-3
3PC-5
2PA-24
2PA-10,2PA-16,2PC-1,2PC-5
9O-1
3PC-2
Gaudreau, Marcel
Gavin, Timothy
Ge, Xingjun
Gerber, Dominic
Gerrits, Anja
Ghandi, Reza
Ghassemi, Mona
Ghiorso, William
Ghoneim, Sherif
Ghose, Shantu
Giesselmann, Michael
Gilgenbach, Ronald
Glodzik, William
83
Golby, Ken
9O-5
Gomez, Matthew
2O-5
Gonçalves, Marconni
3PA-42
Gong, Boyi
1PA-15
Gong, Lingyu
2PA-35,2PA-36
Gorenc, Dalibor
1PA-45
Gorev, Stanislav
1PA-14
Gou, Yang
1PA-17
Gough, Christopher
1PA-24
Grawer, Gregor
1PA-35
Greening, Geoffrey
9O-1
Grekhov, Igor
3O-6,2PB-5
Grosjean, Dennis
4O-8
Gu, Jianwei
4O-4
Guanbin, Song
2PA-34
Guber, Logesh
1PC-17
Gunasekaran, Makendran
1PC-17
Gundersen, Martin
2O-1,6O-6
Guo, Bao-Hong
1PB-4
Guo, Can
1PA-16,1PA-42,1PB-9,1PB-10,1PB-13,
1PC-10,2PA-11,2PB-11,3PA-18
Guo, Fei
3PC-7
Guo, Ting
3PC-15
Guoshun, Sun
11O-5
Gusev, Anton
2PB-1
Gutman, Boris
3PA-1
H
Hai, Bin
Han, Lei
Han, Xiaotao
Hang, Qin
Hansknecht, John
Hao, Shirong
Harshida, Harshida
Hayashi, Takumi
Hayden, Steven
3PA-10
1PA-8,3PA-17
2PC-7,3PA-40
2PA-7,3PA-15
1PA-20
1PA-6
2PA-4
1PA-1,1PA-2
1PA-47
84
He, Jie
He, Jun-Tao
He, Penjun
He, Wenlin
Heesch, Bert van
Heidemann, Matthias
Heinzel, John
Hensen, Emiel
Heo, Sewan
Hepburn, D.
Hernández, E.
Hess, Mark
Hettler, Cameron
Hinojosa, Miguel
Hirsch, Emily
Ho, Janet
Hochberg, Martin
Hoeben, Wilfred
Hoff, Brad
Hoffman, Frank
Hoki, Kazuya
Holen, Paul
Holma, Janne
Hopkins, Matt
Hosseini, S.
Hou, Xingmin
Howard, Grant
Hu, Jinchang
Hu, Qin
Hu, Zhiliang
Huang, He
Huang, Wei
Huiskamp, Tom
Hussain, Muhammad
Hutsel, Brian
1PA-40
1PB-3
1PA-16
3PC-10
1PB-8,11O-4
2PA-21
2PA-18
11O-4
2PA-12
3PC-6
1PC-16
2O-5
10O-6
2PB-7
2PA-10,2PC-1,2PC-5
4O-3
2PC-3,12O-7
1PB-8,11O-4
1PA-47,9O-1
3PA-3
2PA-43
12O-2
2PC-10
3PA-44
3PA-38
4O-4,11O-6
1PA-36
2PB-2,3PA-39
5O-3,2PA-30
1PA-41
1PA-41
2PC-7
1PB-8,2PA-27,11O-4
2PA-48
PL-1,2O-5
I
85
Iberler, Marcus
Igumnov, Vladislav
Ikeda, Jun
Ikemoto, Tomohide
Imburgia, Antonino
Ishikawa, Takashi
Ivanov, Mikhail
3PA-20
1PA-14
10O-5
3PA-19
1PC-3,3PC-11
2PA-45,3PA-24
2PB-5
J
Jacoby, Joachim
3PA-20
Jagannath, Ravichandra
3PA-27
Jain, Palak
3PB-6
Jang, Sung-Roc
2PC-14
Jara-Almonte, Jonathan
3PA-3
Jaradat, Abdulrahman
3PB-11
Jaritz, Michael
4O-7
Jatin, Jatinkumar
2PA-4
Jeftenic, Ilija
3PC-13
Jennings, Chris
2O-5
Jensen, A.
WS-2
Ji, Hantao
3PA-3
Ji, Shengchang
1PB-12,6O-5,2PA-2,10O-2,3PB-14,11O-8
Jia, Zhidong
3PC-4
Jiang, Chunqi
3O-3
Jiang, Ping
2O-4,2O-8
Jiang, Weihua
1PA-1,1PA-2,3PA-29
Jihao, Jiang
1PA-15
Jin, Chaoliang
2PC-2,3PA-7
Jin, Xu
2PA-34
Jin, Zhenxing
1PA-19
Jingfeng, Tang
3PA-23
Jones, M.
PL-1
Jones, P.
PL-1
Jordan, Nicholas
9O-1
Joshi, Ravi
3O4,5O-3, 2PA-30
Jouini, Zenjebil
1PA-46
86
K
Kailun, Zhang
Kalish, Mike
Kamagahara, Takeshi
Kamm, R.
Kan, Jiangnan
Kan, Jinsong
Kandratsyeu, Aleh
Kapetanović, Mirsad
Kaplar, Robert
Kara, Alper
Karagöz, Mustafa
Karaventzas, Vasilios
Kartalovic, Nenad
Kasinathan, Elanseralathan
Katsuki, Sunao
Kelley, Mitchell
Kelly, Patrick
Kempkes, Michael
Ken, Nukaga
Kim, Kyong-Hoe
Kim, Myoung-Hoo
Kirkici, Hulya
Kiyan, Tsuyoshi
Klimczak, Pawel
Klopman, Steven
Knautz, Tobin
Knowles, Tim
Kong, Dezhi
Kong, Michael
Koreeda, Hiroyuki
Kornilova, Alla
Kovacevic, Uros
Kovaleski, Scott
Krampert, Thomas
Krasnykh, Anatoly
Krile, John
3O-8
3PA-3
1O-5
PL-1
1PA-13
2PA-13
12O-4
1PA-45,1PB-15
4O-5
1PA-37,1PA-43
3PA-6
2PB-8
3PC-13
1PC-17,1PC-18
5O-8
2PA-10
9O-4
2PA-14,2PB-3,2PC-8
2PA-28
1PB-15
1PB-15
1PA-34,1PA-38,1PA-43,3PB-7
2PA-45,3PA-24
1PC-2
5O-4
3PC-12
9O-5
2PA-11
7O-7
1O-5,2PA-44
3PA-32
3PB-15
2PA-8
3PC-8
1PA-21
3PB-3,3PB-4
87
Krivosheev, Sergey
Krzaszczak, John
Kuang, Shihuan
Kulkarni, Apurva
Kulkarni, Shrikrishna
Kumar, Rajesh
Kumar, Sanjeev
Kumar, Saurabh
Kumar, Senthil
Kuniyasu, Shouta
Kuthi, Andras
2PB-4
1PA-21
2PA-32
3PA-4
3PA-12
1PC-13
1PB-16,10O-4
1PC-13
1PB-16,10O-4
2PA-33
2O-1,6O-6
L
LaCour, Matthew
Lacouture, Shelby
Laity, George
Lamppa, Derek
Lara, Matthew
Lasheras, Nuria
Lassalle, Francis
Laterza, Bruno
Lau, Y. Y.
Lavrinovich, Valeriy
Laxminarayan, L.
Lee, Ilwoo
Lee, Inhwan
Lehr, Jane
Leighty, William
Li, Chengxiang
9O-5
2PC-1,2PC-5
2O-5
2O-5
1PA-7,2PA-20
1PA-33
9O-3
3PB-8
9O1,11O-1
3PB-9
2PA-4
2PA-12
2PA-3
1PA-5
2PA-47
2O-2,1PA-10,5O-6,
2PA-29,2PA-35,2PA-37
1PB-2
2PA-7,3PA-2,3PA-15
3PC-15
2O-8
10O-8
2PA-5
1PA-25
Li, Dan
Li, Ge
Li, Han
Li, Hongtao
Li, Hua
Li, Huarong
Li, Jian
88
Li, Jie
Li, Jinyu
Li, Junhao
Li, Liang
Li, Qingmin
Li, Shaobin
Li, Shengtao
Li, Song
Li, Xi
Li, Xiandong
Li, Xiang
Li, Xuehuan
Li, Yawei
Li, Yuan
Li, Zhi
Li, Zhibao
Li, Zhibing
Li, Zhiyuan
Liang, Lin
Liang, Ying
Lin, Fuchang
Lin, Shujuan
Liu, Chong
Liu, Dan
Liu, Dingxin
Liu, Hechen
Liu, Hongmei
Liu, Hongwei
Liu, Kai
Liu, Kefu
Liu, Lin
Liu, Longchen
Liu, Sihua
Liu, Wei
Liu, Weidong
Liu, Xin
1PA-9,2PA-13,3PA-8
6O-5
1PB-11,3PC-7
2PC-7,3PA-40
3PA-48
2PA-11
7O-1
1PA-13
1PA-9,3PA-8
10O-8,3PA-31,3PA-34
3PC-1
2PC-7
2PA-41
1PC-9,1PC-11
3PA-31
6O-8,3PA-43,3PC-14
1PA-42
10O-8
3O-7
1PA-39
2PB-2,2PC-2,10O-8,3PA-7,
3PA-31,3PA-34,3PA-39
3PC-15
2PA-13
1PC-1
7O-7
1PC-19
2O-2,5O-6,2PA-29,2PA-37
2O-4,2O-8
1PB-12,10O-2
2O-3,2O-7,2PA-9,2PB-10,2PB-13,3PB-2
3PC-1
2PA-11,2PA-41
3PA-48
2PB-15
3PC-9
2PA-36
89
Liu, Xuying
1PC-1
Liu, Yi
10O-8,3PA-31,3PA-34,12O-8
Liu, Yong
4O-6
Liu, Yunpeng
1PC-1,1PC-8,1PC-19,3PB-13
Liu, Zhichao
7O-7
Loncar, Boris
3PC-13
Long, Jidong
3PA-8
Lopez, M.
PL-1
Loyen, Arnaud
9O-3
Lu, Tiebing
3PA-13
Luo, Tianyan
1PA-10
Lv, Fangcheng
1PC-1,1PC-8
Lv, Yanpeng
2O-2,5O-6,2PA-29,2PA-35,2PA-36,2PA-37
Lynn, Curtis
1PA-31,9O-4,11O-2
Lyubutin, Sergei
2PB-1
M
Ma, Jingtan
1PA-40,1PA-42,1PB-10,1PB-13,3PA-18
Ma, Xun
2O-4,2O-8
Ma, Yunfei
3PA-10
Madonia, Antonino
1PC-3,3PC-11
Madrid, Elizabeth
2O-5
Maenchen, J.
PL-1
Maestas, Sabrina
1PA-47
Maistrello, Alberto
3PB-6
Malec, David
1PA-46
Mallac, Louis
2PC-11
Manegold, Thomas
3PA-20
Mankowski, John
1PA-3,1PA-30, 9O-4,12O-6
Mao, Chongyang
1PA-5
Markosyan, Aram
1PB-8
Martin, Matthew
2O-5
Martinez, Andrea
1PC-7
Martins, Carlos
2PC-9
Mateos, Felix
2PB-8,2PB-9
Matsubara, Shuzo
2PA-33
Matzen, M.
PL-1
90
Mauch, Daniel
Maxwell, Tim
Mayes, Jon
McBride, Ryan
McDaniel, Dillon
McKee, G.
McMeekin, Scott
McMonagle, Gerard
McQuage, Matthew
McRee, Brian
Medeiros, Filipe
Meitzler, Thomas
Melnik, Paul
Mi, Yan
Miceli, Rosario
Michelson, Alan
Michniuk, Szymon
Miller, Kenneth
Minamitani, Yasushi
Minarsky, Andrey
Moore, Anthony
Moore, Chris
Moore, Michael
Morell, Alain
Mori, Tomohiro
Morimoto, Mitsuru
Morozov, Pavel
Morris, Ben
Morton, Christine
Motta, Claudio
Moxley, Michael
Mu, Hai-Bao
Mueller, Georg
Mulligan, Mary
Myers, Jessica
Mytnikov, Alexey
3O-4
1PA-21
1PA-7
2O-5
PL-1
PL-1
2PA-48
1PA-33
3PB-3,3PB-4
2PA-17
3PC-3
4O-3
3PA-3
2O-2,1PA-10,5O-6,2PA-29,
2PA-35,2PA-37
1PC-3,3PC-11
5O-1
2PB-8
1PA-28,3PA-3,3PB-1
5O-8,2PA-28,2PA-43
2PB-5
2PA-23
3PA-44
2PA-23
9O-3
2PA-45,3PA-24
2PA-40,2PA-46,3PA-19,3PA-37
1PC-12
1PA-23
5O-1
2PA-6
1PA-34,3PB-7
1PA-44,3PA-45
2PC-3,12O-7
2PA-42
2PA-42
3PB-9
91
N
Nakajima, Hiromitsu
Nakamura, Ryo
Nan, Zhang
Navarro, Jorge
Neculaes, V. Bogdan
Neely, Jason
Neto, Lauro
Neuber, Andreas
Newnam, Kyle
Nguyen, Phan
Ni, Heli
Nie, Yaohui
Nikjoo, Roya
Nikolic, Paul
Ninomiya, Toshiki
Niu, Zongtao
Noel, Kelli
Norgard, Peter
Novac, Bucur
Nuccitelli, Richard
Nunnally, W. Clay
Nunnally, William
1PA-1,1PA-2
3PA-28
3PA-23
1PA-33
5O-1,5O-4
4O-5
1PA-26,1PA-27
1PA-3,1PA-29,1PA-30,1PA-31,
3O-4,9O-4,11O-2,12O-6
3PA-27
3PA-29
1PC-9,1PC-10,1PC-11
2PA-32
10O-1
2PA-21,3PC-8
3PA-19
3PA-16,3PA-26
1PA-36
2PA-8
PL3-1,9O-7
PL2-1
1PA-7,2PA-20
1PA-7
O
O'Brien, Heather
Ogata, Ryoma
Ogunniyi, Aderinto
Ogura, Shun
Oikawa, Takuma
Olabisi, Shola
Olivares, Tomas
Omatsu, Kouji
Onal, Emel
Osemann, Michael
Osmokrovic, Predrag
3O-2,2PC-1,2PC-5
1PA-18,3PA-35,3PA-36
3O-2,2PB-7,2PC-1,2PC-5,2PC-6
2PA-33
1PA-18,3PA-30,3PA-35,3PA-36
3PC-2
1PC-16
2PA-46
1PA-37,1PB-6
1PA-32
3PB-15
92
Ou, Xiaobo
Ozcan, Muciz
1PC-5
1PA-38
P
Pan, Ming
Pan, Yuan
Panev, Bozhidar
Pang, Lei
Panov, Peter
Pappas, Chris
Paraliev, Martin
Parastaev, Alex
Pareshkumar, Pareshkumar
Park, Wan-Ki
Parson, Jonathan
Patel, Amit
Paupert, Alain
Pawar, Dharmasa
Pearson, Aric
Pecastaing, Laurent
Pemberton, Stephen
Pemen, Guus
Peng, Ping
Pereira, Daniel
Perry, Eric
Petino, Cora
Petrella, Ross
Pittet, Serge
Poelker, Matthew
Pointon, Tim
Pokryvailo, Alexander
Porter, J.
Pouncey, Jon
Prager, James
Prahlad, Prahlad
Prestwich, Kenneth
Pribaz, Federico
3O-7
2PC-7,3PA-31,3PA-34
2PB-8
2PA-11
3PA-14
12O-3
1PA-24
11O-4
2PA-4
2PA-12
10O-6
6O-1
9O-3
3PB-11
1O-7
9O-7
2PB-8
1PB-8,2PA-27,11O-4
11O-8
1PA-33
1PA-7,2PA-20
2PA-21
2PA-26
2PC-11
1PA-20
2O-5
1PA-48,6O-3
PL-1
1PA-5
1PA-28,3PB-1
2PA-4
PL-1
1PA-22
93
Promod, P.
Punanov, Ivan
Pushpakaran, Bejoy
2PA-4
1PC-12
2PC-6
Q
Qian, Baoliang
1PA-13
Qian, Kaiyang
1PA-17
Qin, Yifan
1PA-40,1PA-42,1PB-10
Qin, Yinfan
3PA-18
Qin, Zhang
2PB-2
Qin, Zhaoyu
3PC-15
Qing, Luo
2PA-34
Qiu, Jian
2O-3,2O-7,2PA-9,2PB-10,2PB-13,2PC-12,3PB-2
R
Radford, S.
Rainwater, Kirk
Rajan, Babu
Rajendiran, Pravinraj
Ramachandran, Raja
Ramaswamy, Ramya
Rashkin, Lee
Ray, William
Recchia, Mauro
Redondo, Luis
Reid, A.
Reinap, Avo
Ren, Chengyan
2PA-23
1PA-3
2PA-4
1PC-18
11O-3
11O-3
4O-5
2PA-10,2PC-1
3PB-6,3PB-8
12O-4
3PC-6
2PC-9
1O-8,1PA-8,2PA-15,3PA-10,
3PA-17,3PA-25
3PA-9
3O-3
1PA-33
3PA-46
2O-5
5O-1,5O-4
2O-5
3O-6,2PB-5
Ren, Chunsheng
Ren, Wei
Rey, Stephane
Rice, Scott
Robertson, Grafton
Robinson, Vance
Rochau, Greg
Rodin, Pavel
94
Romano, Pietro
Rose, David
Rossi, Jose
Roth, Ian
Rovang, Dean
Rukin, Sergei
Rutgers, Rins
Ryan, Robert
Ryoo, Hong-Je
Ryu, Sei-Hyung
1PC-3,3PC-11
2O-5
1PA-26,1PA-27
2PB-3,2PC-8
2O-5
2PB-1
2PB-8
1PA-29,1PA-30
2PC-14
3O-2
S
Sack, Martin
Sadamatsu, Takahiro
Saggus, Clifford
Saito, Koki
Sakugawa, Takashi
Sanders, Howard
Sanders, Jason
Sanders, Sara
Sanjay, Kulkarni
Savage, Mark
Schamiloglu, Edl
Scheiner, Brett
Schoenbach, Karl
Schreiber, A.
Schrock, James
Schwarz, J.
Schweickart, Dan
Sekar, Prabhavathy
Senior, Peter
Serianni, Gianluigi
Severns, Christopher
Seweryn, Grzegorz
Shahat, Adel
Shannon, John
Shao, Guiwei
2PC-3,12O-7
2PA-44
2PA-25
2PA-43
3PA-28,3PA-38
12O-1
2O-1,3O-1,6O-6,2PB-6
3PA-27
2PA-4
PL-1,2O-5
1PA-26,1PA-27
3PA-44
2PA-26
3PB-5
2PA-10,2PC-1,2PC-5
PL-1
4O-8,2PA-1
1PC-17
9O-7
3PB-8
4O-8
2PB-8
2PA-22,2PA-23,2PA-24,2PA-25
3PB-3,3PB-4
1PB-14
95
Shao, Tao
1O-8,1PA-8,4O-4,2PA-15,3PA-10,
3PA-16,3PA-17,3PA-25,3PA-26,11O-6
Shao, Xianjun
3PC-10
Shaoqin, Rui
2PA-34
Shaw, Zachary
1PA-31,11O-2
Shay, Adam
2PA-42
Shefali, Saifali
2PA-4
Shen, Yuan
11O-6
Sherman, Louis
2PA-42
Shi, Haozheng
2O-7
Shi, Huantong
3PA-41
Shi, Jiangtao
3PA-40
Shi, Jinshui
12O-8
Shi, Yuhang
6O-5,3PB-14
Shiffler, Donald
9O-5
Shimizu, Kai
2PA-40,3PA-37
Shimomura, Naoyuki
2PA-33,2PA-40,2PA-46,
3PA-19,3PA-37
Shoush, Kamel
3PC-5
Shu, Ting
1PA-19
Shu, Yuxiong
3O-7
Shyam, Anurag
1PC-13
Sieck, Paul
3PA-3
Silva, João
3PA-42
Sinars, D.
PL-1
Singh, Bhavini
3PA-27
Singletary, Michael
3PC-2
Sivashanmugam, Malaiyappasamy
1PC-17
Smirnova, Irina
3O-6
Smith, Ivor
9O-7
Smith, Reginald
5O-4
Sodomaco, Nicola
1PA-22
Solodko, Anastasiya
1PA-33
Soloviev, Stanislav
3O-1,2PB-6
Song, Bai-Peng
1PA-44,1PB-4,10O-5,3PA-45
Song, Ying
2PA-2,3PB-10
Spielman, Rick
3PA-47
96
Srinivas, Yss
Stangenes, Magne
Stankovic, Koviljka
Stoltzfus, B.
Strowitzki, Claus
Struve, Kenneth
Stuber, James
Stygar, William
Su, Guo-Qiang
Sugai, Taichi
Sumod, C.
Sun, Xiaoyun
Sun, Yaohong
Suykerbuyk, Ronaldus
Suzuki, Ryutaro
Syratchev, Igor
2PA-4
12O-2
10O-7,3PB-15,3PC-13
PL-1
2PC-4
PL-1
3PA-3
PL-1,2O-5
1PA-44,1PB-4,10O-5,3PA-45
1PA-1,1PA-2,3PA-29
2PA-4
2PA-2
1O-8
2PB-8
1PA-1,1PA-2
1PA-33
T
Takaki, Koichi
Takeda, Yuya
Tan, Xiangyu
Tang, Miao
Tang, Wilkin
Taylor, Nathaniel
Teranishi, Kenji
Teryoshin, Vasiliy
Thirumurugan, C.
Thomas, M. Joy
Thomas, Richard
Thompson, Kyle
Tian, Shuyun
Tian, Yuan
Tie, Weihao
Todorcevic, Todor
Toigo, Vanni
Tokuchi, Akira
Tong, Liqingf
1PA-18,3PA-30
5O-8
1PB-9
3PA-21
9O-5
10O-1
2PA-33,2PA-40,2PA-46,3PA-19,3PA-37
3PA-14
10O-3
3PA-4
4O-1
2PA-38,3PC-2
2PC-2,3PA-7
3PB-13
1PA-16,2PB-11
1PA-4
3PB-6
1PA-1,1PA-2,3PA-29
2O-3
97
Torres, Andrew
Torres, Manuel
Torres, William
Tortel, Stephane
Tsyranov, Sergei
Tuncer, Enis
5O-4
1PC-16
6O-4
9O-3
2PB-1
1O-3
U
Ujjwal, U.
Urquiola, Alejandro
Ushich, Vladimir
Uto, Yoshihiro
2PA-4
6O-4
3PA-14
2PA-33
V
V. P., Anitha
Vadlamani, Anand
Valdez-Nava, Zarel
Vasiliev, Igor
Veiga, Stepfanie
Veljak, Luca
Verboncoeur, John
Veron, Laurent
Veron, Paul
Vezinet, Rene
Villanova, Giovanni
Viola, Fabio
Vissers, Paul
Voumard, Nicolas
Vysotskii, Vladimir
Vysotskyy, Mykhailo
1PC-13
5O-7,2PA-31,2PA-32
1PA-46
3PA-14
2PA-18
1PA-22
1PB-1,3PA-46
3PA-11
3PA-11
9O-3
3PA-1
1PC-3,3PC-11
11O-4
1PA-35
3PA-32,3PA-33
3PA-33
W
Wakeland, P.
Waldron, John
Waldron, William
Wan, Jialun
Wang, Chuan
PL-1
12O-1
12O-3
1PA-10
1PA-41
98
Wang, Han
Wang, Jian
Wang, Jin
Wang, Jue
Wang, Lei
Wang, Lingyun
Wang, Meng
Wang, Naiyong
Wang, Peng
Wang, Pengcheng
Wang, Ruixue
Wang, Shaoan
Wang, Tao
Wang, Tonglei
3PC-4
3PA-48
2PA-1
1O-8
1PA-8,2PC-7,3PA-17
2O-8
9O-7
3PC-1
1PC-4
1PA-17
4O-4,3PA-16,3PA-25,3PA-26,11O-6
3PC-10
1PA-9,1PA-41
1PA-16,1PC-9,1PC-10,
1PC-11,2PA-11,2PB-11
Wang, Wei
12O-8
Wang, Xiaohua
7O-7
Wang, Xilin
3PC-4
Wang, Xinjie
1PA-41
Wang, Xinxin
1PA-5,3PA-41
Wang, Yanan
1PA-17
Wang, Yi-Bo
1PB-4
Wang, Yonggang
2PB-13
Wang, Yongsheng
1PA-17
Wang, Zhiyuan
3PA-48
Wang, Zibo
1PC-8
Wangj, Yonggang
2PA-9
Wei, Liqiu
3PA-21
Wei, Wenfu
7O-5
Welch, Dale
2O-5
Wen, Tao
1PA-40,1PA-42,1PB-9,1PB-10,1PB-13,3PA-18
Wenkang, Zou
1PA-15
Wetz, David
2PA-17,2PA-18
Wetzeler, Sebastian
2PA-21,3PC-8
White, Joe
4O-3
White, W.
PL-1
Whitmer, Tylor
5O-7
99
Wiechula, Jörg
Williams, Patrick
Woodruff, Simon
Woolley, Ben
Wu, Guangning
Wu, Hua
Wu, Jingfeng
Wu, Youcheng
Wu, Zhicheng
Wuensch, Walter
3PA-20
2PA-20
3PA-3
1PA-33
1O-4,2PC-13,7O-5
2PB-15
3PB-12
2PB-14
1PB-9,1PB-13
12O-4
X
Xia, Jing
Xia, Liansheng
Xia, Tianwei
Xiang, Sun
Xiao, Shu
Xie, Jianfeng
Xie, Qing
Xie, Weiping
Xie, Yutong
Xingming, Bian
Xiong, Qing
Xu, Junnan
Xu, Rong
Xu, Xuzhe
Xu, Yang
Xu, Yuqin
Xuefeng, Tang
Xun, Tao
2PC-12
12O-8
1PB-2,1PC-15
3PB-16
2PA-26
3PA-40
1PA-41,1PC-1,3PC-1
2O-4,2O-8
3PA-8
3PA-13
1PB-12,3PB-14
11O-5
1PB-2,1PC-15
1O-8,2PA-15
3PC-9
1PA-41
2PA-34
1PB-3
Y
Yakupoglu, Baha
Yamamoto, Akinori
Yamano, Yasushi
Yamashita, Takahiko
Yamashita, Tomohiko
1PA-34,3PB-7
3PA-30
10O-5
1O-5,2PA-44
3PA-38
100
Yan, Huijie
Yan, Jiaqi
Yan, Mi
Yan, Ping
Yang, Chao
Yang, Fan
Yang, Hanwu
Yang, Jianhua
Yang, Jinming
Yang, Liang
Yang, Nan
Yang, Xiaolei
Yang, Yang
Yang, Yong
Yang, Zhen
Yanghua, Han
Yao, Chenguo
Yao, Xiu
Yasu, Keita
Ye, Mao
Ye, Qizheng
Yeckel, Christopher
You, Haoyang
Yu, Chan-Hun
Yu, Lanming
Yu, Lichao
Yuan, Jianqiang
Yuan, Weixiong
Yue, Ke
3PA-9
1PA-17
2PA-34
1O-8,1PA-11,4O-4,3PA-17,3PA-26
12O-8
4O-6
1PA-13,1PB-3
1PA-19
1PC-8
3PA-9
1PA-10
2PA-41
2PB-2,3PA-39
1PC-14
1PA-9
3PB-12
2O-2,1PA-10,5O-6,2PA-29,
2PA-35,2PA-36,2PA-37
2PA-1,2PA-3
2PA-28
12O-8
1PB-14
12O-2
1PB-10,1PB-13,3PA-18
2PC-14
3PB-2
1PC-19
2O-4,2O-8
1PC-9,1PC-10,1PC-11
2PA-11
Z
Zaini, Hatim
Zeng, Han
Zhang, Bing
Zhang, Chaohai
Zhang, Chenbo
3PC-5
2PB-15
2PC-7
3PC-15
2PB-10
101
Zhang, Cheng
Zhang, Dong
Zhang, Dongdong
Zhang, Fan
Zhang, Guan-Jun
Zhang, Huang
1PA-8,4O-4,3PA-10,3PA-16,
3PA-17,3PA-25,3PA-26,11O-6
1PA-12
1PA-11,1PB-2
1PC-5,4O-6,3PB-14,11O-8
1PA-44,1PB-4,10O-5,3PA-45
12O-8
Zhang, Jian‑De
1PB-3
Zhang, Jin
1PB-8
Zhang, Jun
1PA-19
Zhang, Liang
1PB-11
Zhang, Lingli
1PB-9
Zhang, Linwen
3PA-8,12O-8
Zhang, Ludan
3O-7
Zhang, Peng
11O-1
Zhang, Pengfei
1PA-40
Zhang, Q.
2PB-11
Zhang, Qiaogen
1PA-40,1PA-42,1PB-9,1PB-10,
1PB-13,1PC-9,1PC-10,1PC-11,2PA-11,3PA-18
Zhang, Qin
2PC-2,10O-8,3PA-7,3PA-31,3PA-34,3PA-39
Zhang, Xiancong
3PC-9
Zhang, Xiaobo
2PB-15
Zhang, Xin
1PB-13
Zhang, Xinghai
2PA-41
Zhang, Xu
3PA-13
Zhang, Ying
1PC-1
Zhang, Yuting
2PB-11
Zhang, Ze
2PA-30
Zhang, Zi-Cheng
1PB-3
Zhao, Junping
1PA-40
Zhao, Tao
1PC-8,1PC-19
Zhao, Yajun
2O-2,5O-6,2PA-29,2PA-36,2PA-37
Zhao, Zheng
3PB-10
Zheng, Yiming
3PB-16
Zhong, Lipeng
1PB-12,10O-2
Zhong, Lisheng
7O-1
Zhou, Churui
7O-1
102
Zhou, Qianyu
2PA-9,2PB-13
Zhou, Run-Dong
1PA-44,3PA-45
Zhou, Wenjun
3PC-15
Zhou, Yuan
1PA-11,1PA-12
Zhu, Feng
2PA-7
Zhu, Lingyu
1PB-12,1PC-5,6O-5,10O-2,3PB-10,3PB-14
Zhu, Xuejian
2PB-10
Zhuansun, Xu
3PC-1
Ziemba, Timothy
1PA-28,3PA-3,3PB-1
Zirnheld, Jennifer
1PC-6,1PC-7,2PA-38,3PC-2
Zou, Dandan
2PB-15
Zou, Xiaobing
3PA-41
Zou, Zhilong
3PC-1
Zucker, Shoshanna
2PA-38
103
Palace Hotel Conference Layout
to second floor
No access
Registration
Exhibits,
Breaks,
Receptions
Oral
Sessions
Oral
Sessions
First Floor
1: Stangenes Industries, Inc.
2: 5S Components Inc.
3: JEMA Energy
4: Pulse Power Solutions LLC
5: open
6: Silicon Power Corporation
7: Pulse Power & Measurement
Ltd.
8: CalRamic Technologies LLC
9: Voltage Multipliers Inc.
10: o
pen
11: S pellman High Voltage
12: L -3 Applied Technologies, Inc.
13: S candinova Systems AB
14: o
pen
15: L ockheed Martin
16: K
anthal-Globar, Sandvik
Heating Technology USA
17: N
WL Inc.
18: D
ean Technology, Inc.
19: P
earson Electronics
20: A
dvanced Energy Inc.
21: G
eneral Atomics
22: ITHPP
23: G
MW Associates
24: R
&K Company Limited
25: B
arth Electronics, Inc.
26: D
iversified Technologies Inc.
27: B
ehlke Power Electronics LLC
28: E agle Harbor Technologies,
Inc.
29: T DK-Lambda Americas
30: H
VR Advanced Power
Components, Inc.
T1: Open
T2: TREK, INC.
T3: Tera Analysis Ltd
T4: R.E. Beverly III and Associates
to first floor
Poster Session C
Short Courses,
Satellite Meetings
Poster Session B
Poster Session A
Second Floor
Megawatt Exhibitors
2016 IEEE International Power Modulator
and High Voltage Conference
San Francisco, CA – July 5–9, 2016
http://www.ipmhvc.org/2016
Kilowatt Exhibitors
Pocket
Program
Sponsored By:
Watt Exhibitors
Technically Co-Sponsored By: