ICOPS2012 Conference Booklet
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3P The 39th IEEE International Conference on Plasma Science Conference Program July 8-12, 2012 EICC - Edinburgh, Scotland Conference Program ICOPS 2012 The 39th IEEE International Conference on Plasma Science July 8-12, 2012 EICC - Edinburgh, Scotland http://icops2012.lboro.ac.uk Sponsored by: The Plasma Science and Applications Committee of The IEEE Nuclear and Plasma Sciences Society CONTENTS WELCOME .............................................................................................................................................. 3 GENERAL INFORMATION ................................................................................................................... 4 CONFERENCE PROGRAM At a Glance ........................................................................................................................ 23 Satellite meetings ........................................................................................................... 24 Monday AM ....................................................................................................................... 25 Monday PM ....................................................................................................................... 30 Tuesday AM ...................................................................................................................... 59 Tuesday PM ...................................................................................................................... 66 Wednesday AM ................................................................................................................ 95 Wednesday PM ............................................................................................................. 101 Thursday AM ................................................................................................................. 124 AUTHOR INDEX ............................................................................................................................... 131 2 WELCOME We wish to extend a warm welcome to you all to the 39 th IEEE International Conference on Plasma Science (ICOPS 2012), sponsored by the Plasma Science and Applications Committee of the IEEE Nuclear and Plasma Science Society (NPSS). ICOPS 2012 will be held in Edinburgh, UK from July 8 – 12, 2012, and will be supplemented with a Mini-Course in Plasma Medicine and Plasma Healthcare to be held over 1.5 days on July 12 – 13, 2012. The venue for both ICOPS 2012 and its Mini-Course is the Edinburgh International Conference Centre (EICC). This is the third time that ICOPS has been held outside North America, following the first two events in Jeju, South Korea (2003) and Karlsruhe, Germany (2008). Against a backdrop of several other conferences in plasma and related areas to be held within 2-3 weeks of ICOPS 2012 and of recent funding cuts having forced withdrawals of some 69 abstracts submitted to ICOPS 2012, we have accepted a record of 824 abstracts. This has allowed us to assemble a very strong technical program. We would like to thank all plasma scientists and engineers who have submitted their papers to ICOPS 2012. The technical program will be headed up by seven plenary talks covering a diverse range of important topics from arc, laser-induced high-density plasma, and beam plasmas, through plasma-matter interactions, to plasmas sustained with electrical pulses, confined in microcavities, and used for nanotechnology. We are fortunate that Dr Gennady A Mesyats, the winner of the 2012 IEEE Marie Sklodowska-Curie Award, and Dr Andrew Ng, the winner of the 2012 IEEE NPSS PSAC Award, have both chosen ICOPS 2012 to give their prize-winning speech. The number of submitted papers with exciting originality and technological breakthroughs far exceeds the number of oral presentations that could be accommodated within the 3.5 days of ICOPS 2012, and as a result we expect many extended discussions during three poster sessions. Given these, the ICOPS 2012 technical program is expected to offer an outstanding forum with which to learn some of the greatest advances in plasma science and technology in recent years and to exchange views of future directions of and industrial drivers for many of key plasma applications. Similarly, academic, technological, industrial and commercial interests in plasma science are likely to make ICOPS 2012 a rare place for network, synergy, and indeed creation of new growth areas. Edinburgh is a major European metropolitan and home to the Scottish parliament. The richness in its cultural and architectural heritage is well beyond what could be described in this welcome message and we strongly encourage you to spend time to explore. In a small way to help you sample some of the history and culture, a visit to the Britannia, the Royal Yacht, on Monday, July 9 2012 and a Scottish-themed conference banquet with Ceilidh dance and instruction on Wednesday, July 11, 2012. All of us who helped organize ICOPS 2012 sincerely hope that all participants will enjoy both the conference and Edinburgh. We look forward to welcoming you all in the historic city of Edinburgh. Michael Kong Chair, ICOPS 2012 Christine Coverdale Technical Program Chair, ICOPS 2012 Felipe Iza Local Organization Chair, ICOPS 2012 Brendan Godfrey Chair, PSAC ExCom, IEEE NPSS 3 General Information 2012 NUCLEAR AND PLASMA SCIENCE SOCIETY ADMINISTRATIVE COMMITTEE PLASMA SCIENCE AND APPLICATIONS COMMITTEE, EXECUTIVE COMMITTEE President: Robert E. Reinovsky Vice-President: Janet M. Barth Secretary: Alberta M. Dawson Larsen Treasurer: Ronald M. Keyser Conference Treasurer: Tony Lavietes Chairman: Vice-Chairman: Secretary: Past Chair: Editor-in-chief of TPS: 2012 Administrative Committee Excom Leadership (Term Expiration Date) Steven H. Gold (PSAC) Jean-Luc Leray (Transnational) Tom K. Lewellen (NMIS) Monica Blank (2012) Jeremy Chittenden (2012) John E. Foster (2012) Joseph M. Kindel (2012) Scott Kovaleski (2012) Manfred Thumm (2012) Steven Gold (AdCom 2012) Natalia Babaeva (2013) Christopher Deeney (2013) Gregory Nusinovich (2013) John Pasour (2013) Brooke Stutzman (2013) William White (2013) John Verboncoeur (AdCom 2013) David Abe (2014) Farhat Beg (2014) Robert Jackson (2014) Michael Mazarakis (2014) Donald Shiffler (2014) Mary Ann Sweeney (2014) Christine Coverdale (AdCom 2015) 2013 Administrative Committee Christian Bohm (CANPS) Gerald Cooperstein (PPST) Paul Dodd (RE) Glenn Knoll (RI) John Verboncoeur (PSAC) 2014 Administrative Committee Robert Zwaska (PAST) Ed Lampo (RI) Alberto del Guerra (NMIS) Brendan Godfrey Rickey Faehl Steven Gold John Luginsland Steven Gitomer ExCom Standing Subcommittees Awards Subcommittee: C. Deeney (chair), J. Chittenden, C. Coverdale, D. Jobe, J. Pasour, J. Schumer, and D. Shiffler. ICOPS Budget Subcommittee: Farhat Beg (chair), Rickey Faehl, and John Luginsland. Employment and Careers Subcommittee: William White (chair). Human Rights Subcommittee: John Lugansland (chair). Membership Subcommittee: Scott Kovaleski (chair), John Foster, Robert Jackson, and Brooke Stutzman. MiniCourse Subcommittee: Brooke Stutzman (chair), Natalia Babaeva, and Farhat Beg. Publicity Subcommittee: John Foster and Joseph Kindel. Site Selection Subcommittee: Monica Blank (chair), Gregory Nusinovich, and John Pasour. Student Grants Subcommittee: Donald Shiffler (chair), Keith Cartwright, and Brooke Stutzman. 4 General Information SPONSORS Plasma Science and Applications Committee of the IEEE Nuclear and Plasma Sciences Society http://ewh.ieee.org/soc/nps http://www.lboro.ac.uk http://www.awe.co.uk http://www.nsf.gov http://www.nrl.navy.mil http://oup.com http://www.af.mil 5 General Information PREVIOUS ICOPS CONFERENCES 1974 University of Tennessee Knoxville, TN I. Alexeff 1975 University of Michigan Ann Arbor, MI R.R. Johnson 1976 University of Texas Austin, TX E.J. Powers 1977 Rensselaer Polytechnic Institute Troy, NY R.L. Hickok 1978 Doubletree Inn Monterey, CA R. Schwirzke 1979 Universite de Montreal Montreal, Canada C. Richard 1980 University of Wisconsin Madison, WI J.L. Shohet 1981 Sweeney Convention Center Santa Fe, NM S.J. Gitomer 1982 Carleton University Ottawa, Canada A.J. Alcock 1983 Sheraton Harbor Island Hotel San Diego, CA J.L. Luxon 1984 Clarion Hotel St. Louis, MO T.J. Menne 1985 Pittsburg Hilton Hotel Pittsburg, PA M.D. Nahemow 1986 Ramada Renaissance & Bessborough Hotels Saskatoon, Canada A. Hirose 1987 Hyatt Regency Crystal City Arlington, VA F.C. Young 1988 Seattle Sheraton Hotel Seattle, WA L.C. Steinhauer 1989 Hyatt Regency Buffalo, NY D.M. Benson 1990 Hyatt Regency Oakland, CA J.N. Benford 1991 College of William and Mary Williamsburg, VA K.H. Schoenbach 1992 Hyatt Regency Westshore Tampa, FL N.L. Oleson 1993 Sheraton Landmark Hotel Vancouver, Canada A. Ng 1994 Sweeney Convention Center Santa Fe, NM A.L. Peratt 1995 University of Wisconsin Madison, WI J.E. Scharer 1996 Boston Park Plaza Hotel Boston, MA C. Chan 1997 Catamaran Resort Hotel San Diego, CA J. Hyman 1998 North Raleigh Hilton Raleigh, NC J. Gilligan 1999 Doubletree Hotel Monterey, CA C. Deeney 2000 Fairmont Hotel New Orleans, LA M. Mazzola 2001 Rio Hotel and Convention Center Las Vegas, NV T. Hussey 2002 Banff Centre for Conferences Banff, Canada R. Fedosejevs 2003 Lotte Hotel Jeju, Korea K.-S. Chung 2004 The Hyatt Regency-Baltimore Baltimore, MD R.J. Commisso 2005 Portola Plaza and Conference Center Monterey, CA R.C. Cauble 2006 Grand Traverse Resort and Spa Traverse City, MI J. Asmussen 2007 Albuquerque Convention Center Albuquerque, NM E. Schamiloglu 2008 Congress Center Karlsruhe Karlsruhe, Germany M. Thumm 2009 Omni Hotel San Diego San Diego, CA F. Beg 2010 Marriot Waterside Norfolk, VA M. Laroussi 2011 Hyatt Regency McCormick Place Chicago, IL A. Hassanein 6 General Information ICOPS 2012 Conference Website http://icops2012.lboro.ac.uk Future ICOPS Conferences ICOPS/PPC 2013 - www.ece.unm.edu/ppps2013 Hyatt Regency Embarcadero San Francisco, CA June 16-22, 2013 Chair: Bryan V. Oliver, Sandia National Laboratories bvolive@sandia.gov ICOPS/BEAMS 2014 Marriott-Wardman Park Washington DC May 25-29, 2014 Chair: Joseph Schumer, Naval Research Laboratory joe.schumer@nrl.navy.mil ICOPS 2015 Antalya, Turkey 24-28 May 2015 Chair: Lutfi Oksuz, Suleyman Demirel University lutfioksuz@sdu.edu.tr 7 General Information 8 General Information 9 General Information ICOPS2012 CONFERENCE LOCATION ICOPS 2012 will be held at the Edinburgh International Conference Centre (EICC). Scotland’s capital city and home to the Scottish Parliament, Edinburgh, is a fusion of fabled streets and historic buildings, contained within a vibrant modern city. The city and surrounding area have a wide range of unusual, historic and world famous venues – including elegant stately homes, The Royal Yacht Britannia, Edinburgh Castle, the Royal Museum and historic underground ghostly vaults. The EICC The EICC is readily accessible from all major hotels and is only five minutes from Edinburgh’s famous Princes Street – a wonderful shopping location overlooked by the world famous Castle. Situated at the heart of Scotland’s elegant and historic capital city, the EICC is one of the world’s outstanding venues for conferences, conventions and exhibitions. Opened in 1995, the purpose-built centre offers the very best in facilities and technology and it has welcomed more than 800,000 delegates through its doors for more than 2,100 events. EICC Concierge Located at the main entrance, the EICC concierge can provide you with information on a wide range of services: theatres, restaurants, shopping, car hire, flight confirmations, travel enquiries and bookings and tourist attractions in the city. Phonecards and tamps are also available. EICC Business Centre EICC has a fully equipped business centre where professional multi-lingual staff will be happy to supply you with administrative support, up-to-date communication services and detailed information on Edinburgh, the Lothians and Scotland. Edinburgh International Conference Centre 150 Morrison Street Edinburgh, EH3 8EE Scotland, UK Phone: +44(0)131 300 3000 Website: http://www.eicc.co.uk 10 General Information EDINBURGH MAP: EICC, ICOPS 2012 HOTELS, RESTAURANTS Edinburgh International Conference Centre (EICC) Nearby ICOPS2012 Hotels Morrison Street and Lothian Road: Nearby streets with places to eat 11 General Information ICOPS 2012 CONFERENCE COMMITTEES Conference Executive Committee Technical Committee Chair Michael G. Kong - m.g.kong@lboro.ac.uk Loughborough University, UK Christine Coverdale (Chair) cacover@sandia.gov Sandia National Labs, USA Technical Programme Christine Coverdale - cacover@sandia.gov Sandia National Labs, USA John P. Verboncoeur - johnv@msu.edu Michigan State University, USA Adrian Cross - a.w.cross@strath.ac.uk University of Strathclyde, UK Treasurer Felipe Iza - f.iza@lboro.ac.uk Loughborough University, UK Carl A. Ekdahl - cekdahl@lanl.gov Los Alamos National Laboratory, USA Student Awards Jeremy Chittenden j.chittenden@imperial.ac.uk Imperial College London, UK Jeremy Chittenden j.chittenden@imperial.ac.uk Imperial College London, UK Mounir Laroussi - mlarouss@odu.edu Old Dominion University, USA Student Travel Grants Don Shiffler - don.shiffler@kirtland.af.mil Air Force Research Labs Uwe Czarnetzki - uwe.czarnetzki@ep5.rub.de Ruhr-Universität Bochum, Germany Minicourse Co-Chair George Isbary - dr.isbary@gmail.com Hospital Munich-Schwabing, Germany Naz Islam - IslamN@missouri.edu University of Missouri, USA Minicourse Co-Chair Mounir Laroussi - mlarouss@odu.edu Old Dominion University, USA Local Organizing Committee Felipe Iza (Chair) - f.iza@lboro.ac.uk Loughborough University Job Placement William White - wmwhite@ieee.org Air Force Research Labs Robert Baxter - r.baxter@ed.ac.uk University of Edinburgh Publication Bucur Novac - b.m.novac@lboro.ac.uk Loughborough University Jeremy Chittenden j.chittenden@imperial.ac.uk Imperial College London Conference secretaries Lynn O’Byrne - lynn@paondemand.co.uk Cheryl A Heath – c.a.heath@lboro.ac.uk Loughborough University William Graham - b.graham@qub.ac.uk Queen's University Belfast James Walsh - jlwalsh@liv.ac.uk University of Liverpool Howard Wilson - howard.wilson@york.ac.uk University of York John Wilson - j.i.b.wilson@hw.ac.uk Heriot-Watt University 12 General Information TECHNICAL AREAS AND SESSION CHAIRS Session Area Organizer Email 1. Basic Processes in Fully and Partially Ionized Plasmas John P. Verboncoeur Michigan State University, USA johnv@msu.edu 1.1 Basic Phenomena Siegbert Kuhn Univ. Innsbruck, Austria siegbert.kuhn@uibk.ac.at 1.2 Computational Plasma Physics Andrew Christlieb Michigan State Univ., USA christlieb@math.msu.edu 1.3 Space Plasmas Reinhard Schlickeiser Ruhr-Univ. Bochum, Germany rsch@tp4.rub.de 1.4 Partially Ionized Plasmas Miles Turner Dublin City Univ., Ireland miles.turner@dcu.ie 1.5 Dusty Plasmas Dmitry Samsonov Univ. Liverpool, UK d.samsonov@liverpool.ac.uk 2. Microwave Generation and Plasma Interactions Adrian Cross University of Strathclyde, UK a.w.cross@strath.ac.uk 2.1 Intense Beam Microwave Generation Don Schiffler AFOSR, USA don.shiffler@kirtland.af.mil 2.2 Fast-Wave Devices Monica Blank CPI, USA monica.blank@cpii.com 2.3 Slow-Wave Devices Richard Carter Lancaster University, UK r.carter@lancaster.ac.uk 2.4 Vacuum Microelectronics Claudio Paoloni Rome University, Italy claudio.paoloni@uniroma2.it 2.5 Codes and Modeling Xiaodong Chen Queen Mary Univ. London, UK xiaodong.chen@elec.qmul.ac.uk 2.6 Non-Fusion Microwave Systems Kevin Ronald Univ. Strathclyde, UK k.ronald@strath.ac.uk 2.7 Microwave Plasma Interaction Nick Braithwaite Open University, UK n.s.braithwaite@open.ac.uk 2.8 THz Sources, Radiation, & Applications Wenlong He Univ. Strathclyde, UK h.e.wenlong@strath.ac.uk 3. Charged Particle Beams and Sources Carl A. Ekdahl Los Alamos National Laboratory, cekdahl@lanl.gov USA 3.1 Plasma, Ion and Electron Sources Joe Kwan Lawrence Berkeley Nat. Lab., USA jwkwan@lbl.gov 3.2 Intense Electron Ion Beams Robert Commisso Naval Research Lab., USA robert.commisso@nrl.navy.mil 4. High Energy Density Plasmas and Applications Jeremy Chittenden Imperial College London, UK j.chittenden@imperial.ac.uk 4.1 Fusion - Inertial, Magnetic & Alternate Concepts Jerry Chittenden Imperial College, UK j.chittenden@imperial.ac.uk 4.2 Particle Acceleration with Stuart Mangles stuart.mangles@ic.ac.uk 13 General Information Lasers and Beams Imperial College, UK 4.3 Radiation Physics Steven Rose Imperial College, UK s.rose@imperial.ac.uk 4.4 High Energy Density Matter Gianluca Gregori Oxford University, UK g.gregori1@physics.ox.ac.uk 4.5 Laser Produced Plasmas Paul McKenna Univ. Strathclyde, UK p.mckenna@phys.strath.ac.uk 4.6 Fast Z Pinches, X-ray Lasers Christopher Jennings Sandia National Labs, USA cjennin@sandia.gov 4.7 Plasma Material Interactions Jeffrey Brooks Purdue University, USA brooksjn@purdue.edu 5. Industrial, Commercial and Medical Plasma Applications Mounir Laroussi Old Dominion University, USA mlarouss@odu.edu 5.1 Nonequilibrium Plasma Applications Vincent Puech Univ. Paris-Sud 11, France vincent.puech@u-psud.fr 5.2 High-Pressure and Thermal Plasma Processing Tony Murphy CSIRO, Austrailia tony.murphy@csiro.au 5.3 Plasma Thrusters John Foster Univ. Michigan, USA jefoster@umich.edu 5.4 Plasmas for Lighting and Flat Panel Displays Georges Zissis Univ. Paul Sabatier, France georges.zissis@laplace.univtlse.fr 5.5 Environmental and Industrial Applications Ahmed Khacef Univ. d'Orléans, France ahmed.khacef@univ-orleans.fr 5.6 Plasma Medicine Mounir Laroussi Old Dominion Univ., USA mlarouss@odu.edu 6. Plasma Diagnostics Uwe Czarnetzki Ruhr-Universität Bochum, Germany uwe.czarnetzki@ep5.rub.de 6.1 Optical and X-ray Diagnostics Nader Sadeghi Univ. Grenoble, France nader.sadeghi@ujf-grenoble.fr 6.2 Microwave and FIR Diagnostics Henrik Bindslev Aarhus University, Denmark hebi@science.au.dk 6.3 Particle Diagnostics Achim von Keudell Ruhr-Univ. Bochum, Germany achim.vonkeudell@rub.de 7. Pulsed Power and Other Plasma Applications Naz Islam University of Missouri, USA IslamN@missouri.edu 7.1 Insulation and Dielectric Breakdown Hulya Kirkici Auburn University, USA kirkihu@auburn.edu 7.2 Switching Luis Redondo Lisbon Superior Engineering Institute, Portugal lmredondo@deea.isel.ipl.pt 7.3 Generators Stephen B. Bayne Texas Tech Univ., USA stephen.bayne@ttu.edu 7.4 Compact Pulsed Power and Applications Masahiro Akiyama Ichinoseki National College of Technology, Japan akiyama@ichinoseki.ac.jp 14 General Information OFFICIAL LANGUAGE The official language of the Conference is English, which should be used in all printed materials, presentations and discussions. REGISTRATION DESK Conference materials will be distributed at the Registration Desk in the Strathblane Hall. Registration will be open as follows: Sunday, 17:30 – 21:00 Monday - Wednesday, 7:00 – 17:30 Thursday, 7:00 – 11:00 PUBLICATIONS – SPECIAL ISSUE The Book of abstracts will be distributed to delegates in a USB memory stick. Manuscripts of plenary and invited oral presentations can be submitted for a special issue of the IEEE Transactions on Plasma Science to be published in early 2013. The Guest editors of the special issue are Carl Ekdahl, Los Alamos National Lab, Felipe Iza, Loughborough University and Michael G. Kong, Loughborough University. Authors should submit their completed manuscripts to the IEEE Transactions on Plasma Science electronic submission and review website, http://mc.manuscriptcentral.com/tps-ieee, by August 31, 2012. The manuscript type is: "Special Issue - Plenary & Invited Papers from ICOPS 2012". FREE INTRODUCTORY MEMBERSHIP In order to encourage participation in the activities of the IEEE and the Plasma Science and Applications Section of the IEEE Nuclear and Plasma Science Society, free half-year memberships will be given to all interested non-IEEE memberships (including students) registering for this conference. This free half-year membership includes a subscription to IEEE Spectrum and the IEEE Transactions on Plasma Science. The regular cost of a full year’s membership can be found at www.ieee.org. Membership includes: 1. Subscription to Transactions on Plasma Science, a journal devoted to all aspects of plasma science and technology. 2. Subscription to IEEE Spectrum, a magazine covering engineering topics of general technical, economic, political, and social interest. 3. Subscription to the NPSS Newsletter with news items about the Conference on Plasma Science, the Particle Accelerator Conference, and the Symposium on Fusion Engineering. 4. Eligibility to participate in a broad range of IEEE activities. 5. Opportunities for IEEE educational services such as video-conferences and individual learning packages. To receive our free membership, fill out an application at the Registration Desk. Contact person: Dr. Scott Kovaleski, University of Missouri 15 General Information MINICOURSE: PLASMA MEDICINE AND PLASMA HEALTHCARE Recent advances in the development of various nonthermal, atmospheric pressure plasma devices have ushered the way to new methods and applications in a number of fields. Plasma medicine and plasma healthcare emerged as very promising branches. Novel applications in biomedical engineering, environmental engineering, biofouling, sterilization, biological and chemical warfare agents’ mitigation, food preservation, biological cell manipulation, and medical diagnostics have emerged. With the IEEE International Conference on Plasma Science leading the way, many other international conferences have included their own sessions on plasma medicine. These conferences and symposia brought together scientists from around the world working in fields related to physics, electrical engineering, biomedical engineering, medicine, cell and molecular biology, microbiology, marine biology, and environmental sciences. The dialogue among these groups generated new interests and excitement, fostered cooperation and collaborations among disciplines, and provided the basis to establish new research programs in the United States and abroad. These programs provide new research and development initiatives for using non-thermal technologies in biology, medicine and environmental sciences. On the first day the course starts with general concerns and challenges in medicine and health care. The requirements for cold atmospheric plasma devices to face all needs in this area of science will also be covered. After a short break, topics will target special fields of interest, such as plasma coagulation, surgery and dentistry. The second day starts with basic knowledge in biology, wound healing and chemistry necessary for plasma researchers, but will also summarize recent research that has been carried out. The next block of lectures focuses on plasma-cell and plasma-tissue interactions. After lunch, topics target again special fields of interest, such as plasma sterilization and cancer treatments. The day will finish with a question and discussion forum, where attendees can share their concerns and ideas. The following are the topic outlines for each lecturer. Venue The minicourse will be held in the Tinto Room in The Edinburgh International Conference Center. Minicourse Registration Fee Registration fee includes dinner on Thursday 12th, and lunch on Friday 13th. Regular £400 Student £200 Mini-course Organizers Prof. M. Laroussi Old Dominion University, USA E-mail: mlarouss@odu.edu Dr. G. Isbary Hospital Munich-Schwabing, Germany dr.isbary@googlemail.com 16 General Information Minicourse Outline Thursday, 12th July 2012 13:00 – 13:20 Refreshment (Tea and coffee) 13:20 – 13:30 Welcome and Introductory Remarks G. Isbary and M. Laroussi, Minicourse Organizers 13:30 – 14:20 Challenges and opportunities in medicine and healthcare G. Isbary, Munich Hospital, Munich, Germany 14:20 – 15:10 Low-temperature plasma sources for biomedical applications X. Lu, HUST, China 15:10 – 15:30 Break and refreshment 16:10 – 16:50 Plasma surgery K. Stalder, Arthrocare Inc., California, United States 16:50 - 17:30 Plasma dentistry G. McCombs, Old Dominion University, United States Friday, 13th July 2012 08:30 – 09:10 Introduction to basic cell biology G. Shama, Loughborough University, United Kingdom 09:10 – 09:50 Plasma-based wound healing G. Isbary, Munich Hospital, Munich, Germany 09:50 – 10:20 Plasma chemistry for medical purposes Y. Sakiyama, U. C. Berkeley; United States 10:20 – 10:40 Break and refreshment 10:40 – 11:30 Plasma-cell interaction mechanisms T. von Woedtke, INP Greifswald, Germany 11:30 – 12:20 Modeling of Biomedical Plasmas F. Iza, Loughborough University, United Kingdom 12:20 – 13:40 Lunch break 13:40 – 14:30 Plasma sterilization of medical instruments B. Baxter, Univ. Edinburgh, Scotland 14:30 – 15:10 Cancer treatment using low-temperature plasmas J. Schlegel, Univ. Munich, Germany 15:10 – 15:30 Break and refreshment 15:30 – 16:20 Questions and Discussion forum G. Isbary and M. Laroussi, Minicourse Organizers 17 General Information EXHIBITION An Exhibition will be held in the Strathblane Hall during the following dates and times: Monday-Wednesday, 8:00 – 17:30 Thursday, 8:00 – 12:00 Setting up and Tear down hours are as follows: Set up: Sunday, July 8th – 1:00pm to 5:30pm Tear down: Thursday, July 12th – 1:00pm to 5:30pm http://www.d-tacq.com http://www.photonics.bfioptilas.co.uk http://www.hidenanalytical.com http://iopscience.org/jphysd http://txcorp.co.uk http://www.emblationmicrowave.com http://www.cst.com http://www.ni.com http://www.linde.com http://www.boconline.co.uk 18 General Information INSTRUCTIONS FOR SPEAKERS Oral presentations Presentations must be uploaded onto the central server at least two hours prior to the beginning of your session. Due to a tight schedule, please note that speakers will not be allowed to connect personal computers to the projector, and session chairs will not be able to load presentations during oral sessions. At the conference, the "Pre-loading Centre" located in the Lomond Foyer (Level 0) will be available for checking the content of your presentation and uploading it to the central server. Presentations may be uploaded from CD, DVD, or USB flash drive. Only Power Point presentations (.ppt) and Adobe Acrobat files (.pdf) will be accepted, as the available software includes Microsoft Office and Adobe Acrobat Reader. The “Pre-loading Centre” will be open on Sunday 17:30-20:00, and during the week from 7:00am. A computer, projector, laser pointer, slide advancer, and microphone will be available in each oral session room. Your uploaded presentation will be available from the central server in each session room. Audio Visual Technicians will provide technical support in each room. Time schedules for talks are as follows: Plenary talks: 60 minutes (50 min presentation + 10 min discussion) Invited talks: 30 minutes (25 min presentation + 5 min discussion) Contributed talks: 15 minutes (12 min presentation + 3 min discussion) Poster Presentations The poster sessions will be located in the Cromdale Hall (Level -2). Posters must fit on a 2m high x 1 m wide poster board (i.e. portrait orientation). The poster presenter is expected to remain at the poster site during the entire time allotted to the poster session. Each poster has been assigned a number, and must be mounted on the appropriately numbered board. (You can check the number by referring to the printed or on-line program.) Posters will be presented in the afternoon sessions (Mon 14:00-15:30, Tue 14:00-15:30, Wed 14:00-15:15) and must be mounted by 13:00 on the day of the poster session. On Monday and Tuesday posters should be taken down at the end of the day. On Wednesday, however, posters must be removed at 15:15 as preparations for the banquet will start right after the session. PLACEMENT CENTER A job placement center will be set up at the 2012 International Conference on Plasma Science. The placement center serves to facilitate contact between individuals seeking work and prospective employers (including those in private industry, federal labs and universities). The placement center is a free, voluntary service that serves several related fields including: plasma physics, pulsed power, high power microwaves and fusion. In previous years the placement center has been able to help engineers, physicists, mathematicians and technologists make contact with prospective employers. For further information, please contact: Dr. William White (wmwhite@ieee.org) or Dr. David M. French (david.french@kirtland.af.mil) 19 General Information BEST STUDENT PAPER AWARDS The "Best Student Paper Awards" were established in 2005 by the IEEE Nuclear and Plasma Sciences Society. The purpose of these awards is to encourage both outstanding student contributions and greater student participation as principal or sole authors of papers as well as to acknowledge the importance of student contributions to the fields embraced by the NPSS umbrella. The two best submissions (two awards) will receive cash awards of £350 and a Certificate. The two runners-up will receive a Certificate only. Any student who is the principal author/researcher and the presenter of either an oral or poster paper at the ICOPS 2012 conference and who has been identified as an eligible student author will be eligible. If there is a tie, preference will be given 1) to IEEE NPSS members, 2) to IEEE members; 3) to non-IEEE members. All candidates for selection must have identified themselves at the time of abstract submission. Upon notification of acceptance of the abstract, the award candidate should arrange to have his/her advisor or research supervisor provide an endorsement of the work to the awards committee. The necessary contact information, as well as additional instructions for the presentation will be provided at that time. At the conference, the on-site awards committee will rank the papers for technical content and originality first. Other criteria such as graphic display and clarity of data presentation may be considered. For further information, please contact: Jeremy Chittenden Imperial College London, UK E-mail: j.chittenden@ imperial.ac.uk STUDENT TRAVEL GRANT A limited number of travel grants are available to encourage students who are IEEE members to attend ICOPS2012. Only "First author" abstracts submitted by students are eligible for travel grant. Moreover, the abstract should be original (not published elsewhere). Applicants should submit the following information by May 1st, 2012. Copy of submitted abstract IEEE membership number Proposed travel budget to the conference (cost sharing with other students is encouraged) Two letters of recommendation, one of which is from the student's advisor, stating the importance of the research to be presented. For further information, please contact: Dr. Don Shiffler Air Force Research Labs E-mail: don.shiffler@kirtland.af.mil 20 General Information SOCIAL PROGRAMME Welcome Reception A welcome reception will be held on Sunday evening, 8 July 2012, from 19:00 to 21:30 in the Strathblane Hall of the Edinburgh International Conference Centre. This event is open to all registered conference attendees and is included in your registration fee. Please be sure to stop by and take advantage of this opportunity to enjoy food and drinks while networking with your colleagues. The Royal Yacht Britannia On Monday evening, 9 July 2012, an exclusive reception for ICOPS participants will be held on board The Royal Yacht Britannia. For over forty years The Royal Yacht Britannia proudly served the British Royal Family and sailed over one million miles on nearly a thousand official visits. Britannia is now permanently berthed in the historic port of Leith, in Edinburgh. Entertaining on board Britannia is no different today from when she was on state duty welcoming royalty and world leaders. The same meticulous attention to detail, high standards of service and rules of discretion are observed. Add to this the finest cuisine freshly prepared by the Executive Chef in the Royal Galley and you are guaranteed to feel like royalty. Buses leave from EICC at 18:45 and return at 22:00. Tickets (£18) are available online and from the Registration Desk. These are heavily subsidised (our cost: £71 per person) so don't miss out this opportunity! For further information, please check http://icops2012.lboro.ac.uk/royal-yacht-britannia. Banquet The conference banquet will be held on Wednesday evening, 10 July 2012, in the Cromdale Hall at the EICC and it will be a night packed with traditional Scottish entertainment! An award ceremony including the NPSS Merit award, the NPSS Early achievement award, best student paper awards and new IEEE fellowships will also take place during the evening. Unfortunately we are not able to accommodate all the delegates as space is limited, so please book in advance to avoid disappointment! Tickets can be purchased online or at the registration desk, and will be sold on a first-come first-serve basis. 21 General Information EICC ROOM LAYOUTS Location of sessions Plenary Sessions: Pentland ExCom meeting: Kilsyth Oral (Parallel) Sessions: Tinto, Moorfoot, Fintry, Sidlaw, Pentland TechX Workshop: Carrick Poster Sessions: Cromdale Hall Minicourse: Tinto Business Meeting: Tinto Exhibition: Strathblane Student award interviews: Carrick Sunday Reception & Coffee Breaks: Strathblane Conference Banquet: Cromdale 22 Technical Program At a Glance 23 Technical Program Satellite Meetings SATELLITE MEETINGS NPSS - PSAC ExCom meeting Kilsyth Room (Level 0), Sunday 8th July 2012, 08:00 The Executive Committee meeting of the Plasma Science and Applications Committee (PSAC) of the IEEE Nuclear and Plasma Sciences Society (NPSS) will be held on Sunday 8th July 2012. Workshop: Plasma Physics with Vorpal Carrick Room (Level 1), Tuesday 10th July 2012, 14:00 Tech-X are pleased to offer a FREE workshop on simulating plasma physics problems. They will be providing hands on training and demonstrating how to use the Vorpal computational framework to simulate systems including Aerospace and Medical plasmas, discharge chambers, along with using advanced visualisation packages. The Program includes Overview of Tech-X (30min), Introducing Nautilus (20min), Simulating Medical Plasmas using FDTD (20 min), Aerospace plasmas and (Vorpal/Nautilus co-simulation) (30 min), Stump a developer/suggest-a-feature/discussion (20 min), Vizualisation techniques with HDF5 files (20 min), CCP chamber simulations (30 min), Wrap up, feedback, discussion (10 min). If there are any areas of particular interest to you and your colleagues, please get in touch with jonathan.smith@txcorp.co.uk. Business Meeting Tinto Room (Level 0), Tuesday 10th July 2012, 17:30 The annual PSAC business meeting will be held on Tuesday, 10 July 2012 in the Tinto Room of the EICC. The meeting is open to all participants and will start with an update on future upcoming ICOPS meetings. Student Award Interviews Carrick Room (Level 1), Wednesday 11th July 2012, 09:00 Interview of candidates for the Student Best Paper Awards will be help on Wednesday morning. Pre-selected students will be notified of their interview time and awards will be presented during the Conference Banquet that evening. For further information, contact: Jeremy Chittenden - j.chittenden@imperial.ac.uk. Reception for IEEE members and Women in Engineering (WIE) ICOPS 2012 will host a welcome reception for Women in Engineering and IEEE members. Location and programme will be available in due course. 24 Technical Program Monday morning, July 9 Session PL1: Plenary 1 Monday, July 9 08:00-09:15, Pentland Suite (Level 3) Session Chairs: Michael Kong, Loughborough University, Leicestershire, UK XinPei Lu, Huazhong University of Science & Technology, China 8:00 PL1-1 Introductory Remarks M. Kong Loughborough University, Leicestershire, UK 8:15 PL1-2 Plasma Nanoscience in a Sustainability Age K. Ostrikov Plasma Nanoscience Center Austrailia, Lindfield, Austrailia Session 1A: Basic Phenomena I (oral) Monday, July 9 9:45-11;45, Tinto Room (Level 0) Session Chair: Siegbert Kuhn, University Innsbruck, Austria 9:45 1A-1 (invited) Emissive Langmuir Probes in the Strong Emission Regime for the Determination of the Plasma Properties L. Conde1, S. P. Tierno1, J. L. Domenech1, J. M. Donoso1, D. Jennewein2, G. Herdrich2 1Dpt. Applied Physics, ETSI Aeronauticos. UPM, Madrid (Spain), Madrid, Spain 2Institute für Raumfahrtsysteme, Stuttgart University, Stuttgart, Germany 10:15 1A-2 Comparative Study of Homogenous Dielectric Barrier Discharge in Atmospheric Inert Gases H. Luo, J. Ran, X. Wang Tsinghua University, Beijing, China 10:30 1A-3 The Startup of an Electrodeless Rf Discharge in Toroidal Systems in Presence of Low Magnetic Field C. Das, D. C. Jana Physics & Technophysics, Vidasagar University, West Bengal, India, Midnapore, West Bengal, India 10:45 1A-4 Dissociative Quenching and Ultrafast Heating following Nanosecond Repetitively Pulsed Discharges in Air D. L. Rusterholtz1, D. Z. Pai2, G. D. Stancu1, D. A. Lacoste1, C. O. Laux1 1EM2C Laboratory CNRS UPR288 - ECP, Chatenay Malabry, France 2Terashima Laboratory, The University of Tokyo, Kashiwa, Japan 11:00 1A-5 Particle-in-Cell Simulations of Hollow Cathode Enhanced Capacitively Coupled Rf Discharges R. W. Boswell, T. A. Lafleur SP3/RSPE, Australian National University, ACT, Australia 11:15 1A-6 Transient Properties of Anodic Glow in a Constricted Anode Plasma Source M. A. Mujawar1, S. K. Karkari2, M. M. Turner1 1National Centre for Plasma Science and Technology, School of Physical Sciences, Dublin City University, Dublin 9, Ireland 2Institute for Plasma Research, Bhat, Gandhinagar, India 25 Technical Program Monday morning, July 9 11:30 1A-7 Nanosecond Pulse Discharge in High Denisty Polymer Liquid (PDMS) Y. Seepersad1, E. Plowman1, G. Friedman1, A. Fridman1, D. Dobrynin1, A. Fontecchio2 1Drexel Plasma Institute, Philadelphia, USA 2Department of Electrical and Computer Engineering, Drexel University, Philadelphia, USA Session 1B: Partially Ionized Plasmas I Monday, July 9 9:45-11:45, Moorfoot Room (Level 0) Session Chair: Miles Turner, Dublin City University 9:45 1B-1 Temporal Behavior of Microplasma and Its Coupling Phenomena in Silicon Channel Devices E. S. Kim, D. S. Choi, S. -J. Park, J. G. Eden Department of Electrical and Computer Engineering, University of Illinois, Urbana, IL, USA 10:00 1B-2 Generation and Loss of Reactive Oxygen Species in Low-Temperature Atmospheric-Pressure RF He+O2+H2O Plasma K. McKay1, D. X. Liu2, M. Z. Rong2, F. Iza1, M. G. Kong1 1School of Electronic, Electrical and Systems Engineering, Loughborough University, Leicestershire, United Kingdom 2State Key Laboratory of Electrical Insulation & Power Equipment, Xian Jiaotong University, Xian City, China 10:15 1B-3 Numerical Studies on Plasma Bullet Propagation and its Inhibition in Helium Plasma Jet at Atmospheric Pressure F. Liu, D. Wang Dalian University of Technology, Dalian, China 10:30 1B-4 Modeling Study on Pressure Dependence of Plasma Structure in Microwave Air Breakdown Q. Zhou, Z. Dong Institute of Applied Physics and Computational Mathematics, Beijing, China 10:45 1B-5 Adjacent Needle Streamer Synchronicity in Argon-Acetylene Atmospheric Pressure Weakly Ionized Plasma E. C. Wemlinger, P. D. Pedrow The School of Electrical Engineering and Computer Science, Washington State University, Pullman, WA, USA 11:00 1B-6 Discharge Mechanims of Sub-Microsecond Pulsed Atmospheric Pressure Glow Discharges J. J. Shi, S. Song, Y. Guo, J. Zhang College of Science, Donghua University, Shanghai, China 11:15 1B-7 Ionic Plasmas in Room-Temperature Atmospheric-Pressure Gases O. Sakai, K. Yamada, K. Urabe Department of Electronic Science and Engineering, Kyoto University, Kyoto, Japan 11:30 1B-8 Predicting Self-Organization in DC Glow Microdischarges in Different Gases with the Use of Comsol Multiphysics P. G. C. Almeida, M. S. Benilov, M. J. Faria Departamento de Fisica, Universidade da Madeira, Funchal, Portugal 26 Technical Program Monday morning, July 9 Session 1C: High Energy Density Matter I (oral) Monday, July 9 9:45-11:45, Fintry Auditorium (Level 3) Session Chair: David Neely, Central Laser Facility, STFC 9:45 1C-1 (invited) Particle Transport and Electric Fields in a Laser-Generated Focused Proton Beam M. E. Foord1, T. Bartal2, C. McGuffey2, M. Wei3, B. Qiao2, C. Bellei1,2, M. H. Key1, P. Patel1, L. Jarrott2, D. Higginson1,2, R. B. Stephens3, F. N. Beg2 1Lawrence Livermore National Laboratory, Livermore, CA, USA 2Center for Energy Research, University of California-San Diego, La Jolla, CA, USA 3General Atomics, San Diego, CA, USA 10:15 1C-2 Vlasov-Fokker-Planck Modeling of Magnetic Field Reconnection Driven by Heat Flow in Inertial Confinement Fusion Related Scenarios A. S. Joglekar, A. G. R. Thomas Nuclear Engineering, University of Michigan, Ann Arbor, MI, USA 10:30 1C-3 X-Ray Scattering from Warm Dense Iron D. Riley1, S. White1, G. Nersisyan1, B. Kettle1, T. W. J. Dzelzainis1, K. McKeever1, C. L. S. Lewis1, A. Otten2, K. Siegenthaler2, D. Kraus2, M. Roth2, T. White3, G. Gregori3, D. O. Gericke4, K. Wuensch4, J. Vorberger4 1Centre for Plasma Physics, Queen's University Belfast, Antrim, United Kingdom 2Institut für Kernphysik, Technische Universität Darmstadt, Darmstadt, Germany 3Clarendon Laboratory, University of Oxford, Oxford, UK 4Centre for Fusion, Space and Astrophysics, Department of Physics, University of Warwick, Coventry, UK 10:45 1C-4 X-Ray Spectra of Laser Irradiated Metal Foils for X-Ray Thomson Scattering of Warm Dense Matter on the Z-Accelerator T. Ao1, E. C. Harding1, J. E. Bailey1, D. B. Sinars1, M. P. Desjarlais1, S. B. Hansen1, R. W. Lemke1, D. F. Wenger1, I. C. Smith1, P. D. LePell2, G. Gregori3 1Sandia National Laboratories, Albuquerque, NM, USA 2Raytheon Ktech Corp., Albuquerque, NM, USA 3Clarendon Laboratory, University of Oxford, Oxford, United Kingdom 11:00 1C-5 Thermodynamics of Plasmas at High Energy Densities V. E. Fortov Russian Academy of Sciences, Joint Institute for High Temperatures of RAS, Moscow, Russian Federation 11:15 1C-6 Effect of Lattice Structure on Hot Electron Transport in Warm Dense Carbon D. A. MacLellan1, D. C. Carroll1, R. J. Gray1, A. P. L. Robinson2, M. P. Desjarlais3, N. Booth2, C. M. Brenner1,2, M. Burza4, M. Coury1, F. Du5, H. Powell1, M. N. Quinn1, D. Neely2, G. Scott1,2, O. Tresca1, X. H. Yuan5, C. G. Wahlstrom4, P. McKenna1 1University of Strathclyde, Glasgow, United Kingdom 2Central Laser Facility, STFC Rutherford Appleton Laboratory, Oxfordshire, United Kingdom 3Sandia National Laboratories, Albuquerque, New Mexico, USA 4Department of Physics, Lund University, Lund, Sweden 5Beijing National Laboratory of Condensed Matter Physics, CAS, Beijing, China 27 Technical Program Monday morning, July 9 11:30 1C-7 Flux-Limited Non-Equilibrium Electron Energy Transport in Warm Dense Gold Z. Chen1, V. Sametoglu1, Y. Y. Tsui1, T. Ao2, A. Ng3 1Department of Electrical and Computer Engineering, University of Alberta, Edmonton, Alberta, Canada 2Sandia National Laboratories, Albuquerque,New Mexico, USA 3Department of Physics and Astronomy, University of British Columbia, Vancouver, British Columbia, Canada Session 1D: Insulation, Dielectrics, and Switching (oral) Monday, July 9 9:45-11:45, Sidlaw Auditorium (Level 3) Session Chairs: Hulya Kirkici, Auburn University Luis Redondo, Nuclear Physics Center from Lisbon University 9:45 1D-1 Breakdown in High Vacuum: Contribution of Dark Current Emission K. Almaksour1, M. J. Kirkpatrick2, P. Dessante2, E. Odic2, D. Alamarguy1, P. Teste1 1LGEP, Gif-sur-Yvette, France 2Energy, SUPELEC, Gif-sur-Yvette, France 10:00 1D-2 Measurements of UV-VUV Radiation Produced from Dielectric Surface Flashover A. S. Fierro, G. R. Laity, A. A. Neuber, L. L. Hatfield Center for Pulsed Power and Power Electronics, Texas Tech University, Lubbock, TX, USA 10:15 1D-3 Space Charge and Dc Dielectric Breakdown in Polymeric Insulation G. Chen, J. Zhao Electronics and Computer Science, University of Southampton, Southampton, United Kingdom 10:30 1D-4 The Comparison of the Residual Charge Distribution of Surface Leader Discharge under Positive and Negative Impulse Voltage Application D. Jun-Bo1, M. Hai-Bao1, Z. Guan-Jun1, A. Kumada2, K. Hidaka2 1State Key Laboratory of Electrical Insulation and Power Equipment, Xi'an Jiaotong University, Xi'an, Shaanxi, China 2The University of Tokyo, Tokyo, Japan 10:45 1D-5 Generating THz Radiations from Gallium Arsenide Photoconductive Switches with Oprimized Pulse Amplitude H. M. Alsaif, O. A. Ibrahim, N. E. Islam Department of Electrical and Computer Engineering, University of Missouri-Columbia, Columbia, MO, USA 11:00 1D-6 Ultrafast 10kV SiC PCSS and Its on-State Characteristics J. Liu, H. Liu, J. Yuan, H. Li, W. Xie Institute of Fluid Physics, China Academy of Engineering Physics, Mianyang, China 11:15 1D-7 Study on Multichannel Discharge and Operating Characteristics of a Three Electrode Coaxial Field Distortion Gas Spark Switch J. Chang, X. Li, Q. Zhang, A. Qiu School of Electrical Engineering, Xi'an Jiaotong University, Xi'an, China 28 Technical Program Monday morning, July 9 11:30 1D-8 Emission Spectroscopy and CFD Modeling of the Arc in a Model Circuit Breaker D. Eichhoff1, A. Kurz1, R. Kozakov2, G. Gött2, D. Uhrlandt2 1Institute for High Voltage Technology, RWTH Aachen, Aachen, Germany 2Leibniz-Institute for Plasma Science and Technology e.V. (INP Greifswald), Greifswald, Germany Session 1E: Environmental and Industrial Applications I (oral) Monday, July 9 9:45-11:45, Pentland Auditorium (Level 3) Session Chair: Ahmed Khacef, University d'Orleans, France 9:45 1E-1 (invited) Plasms Surface Treatment of Biomaterials P. K. Chu Physics and Materials Science, City University of Hong Kong, Kowloon, Hong Kong, China 10:15 1E-2 Solar Driven Discharge Plasma for Nox Treatment in a Diesel Automobile: a Practical Demonstration S. B. Maragani, S. Mohapatro, B. S. Rajanikanth Electrical Engineering, Indian Institute of Science, Bangalore, Karnataka, India 10:30 1E-3 Plasma-Assisted Diesel Oxidation Catalyst: Laboratory and Bench Scale Investigations for CO and HC Light-Off Temperature and NOx Remediation A. Leray1,2, A. Guy3, M. Makarov2, K. Lombaert4, J. M. Cormier1, A. Khacef1 1GREMI Laboratory, CNRS-University d'Orleans, Orleans, France 2FR TCR, Renault, Guyancourt, France 3Engineering, SAFRAN, Montigny-le-Bretonneux, France 4CTL, Renault, Lardy, France 10:45 1E-4 Low Temperature Plasma-Driven Catalysis of Nano-Titanium Dioxide for Vehicle Exhaust Clearance S. Yu1, Y. Liang1, S. Sun1, K. Zhang1, J. Zhang1, J. Fang1, W. Zhu2 1Academy for Advanced Interdisciplinary Studies, Peking University, Beijing, China 2Saint Peter’s College, Jersey City, New Jersey, USA 11:00 1E-5 The Effect of Balance Gas Mixture on the Destruction of Naphthalene by Surface Dielectric Barrier Discharge A. A. Abdelaziz, T. Seto, Y. Otani Department of Chemical and Material Engineering, Kanazawa University, Kanazawa, Japan 11:15 1E-6 Dual Sided Al/Al2O3 Microchannel Plasma Ozone Reactor M. H. Kim, J. H. Cho, S. B. Ban, J. K. Bae, S. -J. Park, J. G. Eden Department of Electrical and Computer Engineering, University of Illinois, Urbana, IL, USA 11:30 1E-7 Dissociation and Conversion of Carbon Dioxide in Arrays of Atmospheric Pressure Microplasma Devices T. Oh, S. -J. Park, J. G. Eden Department of Electrical and Computer Engineering, University of Illinois, Urbana, IL, USA 29 Technical Program Monday afternoon, July 9 Session PL2: Plenary 2 Monday, July 9 13:00-14:00, Pentland Suite (Level 3) Session Chair: Mounir Laroussi, Old Dominion University 13:00 PL2-1 Plasma Science in the Limit of the Small: Recent Advances in Microavity Plasmas and their Applications G. Eden University of Illinois, Urbana, IL, USA Session 1P: Intense Beam Microwave Generation (poster session) Monday, July 9 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Colin G Whyte, University of Strathclyde 1P-1 Mode Analysis in an Overmoded Klystron-like Relativistic Backward Wave Oscillator R. Xiao, Z. Song, X. Li, L. Zhang, W. Tan Science and Technology on High Power Microwave Laboratory, Northwest Institute of Nuclear Technology, Xi'an, China 1P-2 W-Band Cherenkov Maser Based on a Periodic Surface Field Structure A. R. Phipps1, I. V. Konoplev2, C. W. Robertson1, C. G. Whyte1, A. D. R. Phelps1, A. R. Young1, K. Ronald1, A. W. Cross1 1Atoms, Beams and Plasmas Group, University of Strathclyde, Glasgow, United Kingdom 2JAI, Department of Physics, Oxford University, Oxford, United Kingdom 1P-3 Electron Excursion versus Scattering Mechanism in a Cross-Field Diode B. S. Stutzman1, J. P. Verboncoeur2 1US Coast Guard Academy, New London, CT, USA 2Michigan State University, East Lansing, MI, USA 1P-4 Numerical Study of the Effects of the Magnetic Axis Misalignment in the Eu Coaxial Cavity Gyrotron for Iter I. G. Pagonakis1, K. A. Avramides2, S. Illy1, B. Piosczyk1, S. Kern1, J. -P. Hogge3, J. Jelonnek1 1Karlsruhe Institute of Technology (KIT), IHM, Karlsruhe, Germany 2National Technical University of Athens (NTUA), Athens, Greece 3Centre de Recherche en Physique des Plasmas (CRPP), EPFL, Lausanne, Switzerland 1P-5 Anode Material Outgassing at 250 A/cm2 Current Density under UHV Conditions J. M. Parson, J. C. Dickens, A. Neuber, J. Walter, M. Kristiansen Electrical and Computer Engineering, Texas Tech University, Lubbock, TX., USA 1P-6 Dissipation in Composits with High-Loss and Lossless Components A. Figotin1, A. Welters2 1University of California, Irvine, CA, USA 2University of Louisiana, Baton Rouge, LA, USA 1P-7 Recent Advances in Relativistic A6 Magnetron Research - Mode Control E. Schamiloglu, M. Fuks, S. Prasad, C. Leach, C. Mendonca, D. Galbreath Department of Electrical and Computer Engineering, University of New Mexico, Albuquerque, NM, USA 30 Technical Program Monday afternoon, July 9 Session 1P: Fast-Wave Devices (poster session) Monday, July 9 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Monica Blank, CPII 1P-8 Numerical Investigations of Parasitic Oscillations in Gyrotrons A. Roy Choudhury, S. Kern, D. D'Andrea, M. Thumm IHM, KIT Campus North, Karlsruhe Institute of Technology (KIT), Karlsruhe, Germany 1P-9 Calculation of Start-Oscillation-Current for Lossy Gyro-TWT Using Linear TWT Parameter Conversions H. Song, C. -C. Hsu Electrical and Computer Engineering, University of Colorado, Colorado Springs, CO, USA 1P-10 Parametric Study of a Coaxial Gyrotron Stacked Beam Tunnel M. D. Moraitou, G. P. Latsas, Z. C. Ioannidis, I. G. Tigelis Department of Electronics, Computers, Telecommunications and Control, Faculty of Physics, National and Kapodistrian University of Athens, 157 84 Zografou, Athens, Greece 1P-11 The Eddy Current Effect Οn the Transversal Sweeping System of Α Gyrotron Collector Z. C. Ioannidis1, I. G. Tigelis1, I. G. Pagonakis2, S. Illy2, M. Schmid2 1Department of Electronics, Computers, Telecommunications and Control, Faculty of Physics, National and Kapodistrian University of Athens, 157 84 Zografou, Athens, Greece 2IHM, Karlsruhe Institute of Technology (KIT), Hermann-von-Helmholtz-Platz 1, 76344 Eggenstein-Leopoldshafen, Germany 1P-12 Development and Demonstration of High-Frequency Gyrotrons for NMR/DNP Applications M. Blank1, P. Borchard1, S. Cauffman1, K. Felch1, M. Rosay2, L. Tometich2 1CPI, Palo Alto, CA, USA 2Bruker Biospin, Billerica, MA, USA 1P-13 High-Harmonic Terahertz Gyrotrons with Sectioned Cavities A. V. Savilov, V. L. Bratman, I. V. Bandurkin, Y. K. Kalynov Institute of Applied Physics, Russian Academy of Sciences, Nizhny Novgorod, Russian Federation 1P-14 3-D Numerical Simulation of Novel Gyro-Multiplier Schemes D. A. Constable1, W. He1, A. W. Cross1, K. Ronald1, I. V. Bandurkin2, A. V. Savilov2, V. L. Bratman2 1Physics, University of Strathclyde, Glasgow, United Kingdom 2Institute of Applied Physics, Russian Academy of Science, Nizhny Novgorod, Russia 1P-15 Analysis of Interaction Structure for Ka-Band Gyro-Twt M. K. Alaria1, P. Lata1, Y. Choyal2, A. K. Sinha1 1CSIR-CEERI, Pilani, India 2DAV, Indore, Indore, India 1P-16 Phase Trapping Efficiency Enhancement for Cyclotron Amplifiers K. Matheson1, A. R. Young1, A. D. R. Phelps1, A. W. Cross1, K. Ronald1, A. V. Savilov2, I. V. Bandurkin2 1SUPA, Department of Physics, University of Strathclyde, Glasgow, United Kingdom 2Institute of Applied Physics, Russian Academy of Science, Nizhny Novgorod, Russia 31 Technical Program Monday afternoon, July 9 1P-17 Theoretical Studies of Gyrotron Backward Wave Oscillators S. -H. Chen1, L. Chen2 1Department of Physics, National Central University, Johnli, Taiwan 2Department of Physics and Astronomy, University of California, Irvine, Irvine, CA 92697, USA 1P-18 3D CFDTD PIC Simulation Study on Low-Frequency Oscillations in a Gyrotron M. C. Lin, D. N. Smithe Tech-X Corporation, Boulder, CO, USA Session 1P: Codes and Modeling (poster session) Monday, July 9 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Simon J Cooke, Naval Research Laboratory 1P-19 A Self-Consistent General Thermal Field Emission Model M. C. Lin Tech-X Corporation, Boulder, CO, USA 1P-20 Counter Streaming Charged Particle Beam Model in MICHELLE-eBEAM S. G. Ovtchinnikov1, S. J. Cooke2, M. M. Mkrtchyan1, R. Shtokhamer1, C. Kostas1, A. N. Vlasov2, J. J. Petillo1, B. Levush2 1SAIC, Billerica, MA, USA 2NRL, Washington, DC, USA 1P-21 Influence of Kinetic Effects on the Resonance Behavior of the Impedance Probe J. Oberrath, T. Mussenbrock, R. P. Brinkmann Theoretical Electrical Engineering, Ruhr University, Bochum, Germany 1P-22 RF Density-Modulated Electron Source Simulations with MICHELLE J. Petillo, C. Kostas, D. Panagos, S. Ovtchinnikov, A. Burke, E. Nelson, T. Antonsen Center for Electromagnetics, SAIC, Billerica, MA, USA 1P-23 IOT Electron Gun Design Using Beam Optics Analyzer R. Jackson, T. Bui, M. Read, R. L. Ives Calabazas Creek Research, Inc., San Mateo, CA, USA 1P-24 3-D Modeling of Dielectric Barrier Discharge at Low Pressure Argon Gas A. Barjasteh Physics, Iran University of Science and Technology (IUST), Tehran, Iran 1P-25 Numerical Analysis for Magnetically Dispersed Ar Arc Plasma at Atmospheric Pressure with Different Shape of Cathode W. Xia1, B. Bai1, J. Zha1, X. Zhang1, C. Wang1, L. Ding2 1Department of Thermal Science and Energy Engineering, University of Science and Technology of China, Hefei, China 2Department of Life Science, University of Science and Technology of China, Hefei, China 1P-26 Design and Modeling of Multistage Depressed Collectors Using 3D Conformal Finite-Difference Time-Domain Particle-in-Cell Simulations M. C. Lin1, P. H. Stoltz1, D. N. Smithe1, H. Song2, H. J. Kim3, J. J. Choi3, S. J. Kim4, S. H. Jang4 1Tech-X Corporation, Boulder, CO, USA 2University of Colorado, Colorado Springs, CO, USA 32 Technical Program Monday afternoon, July 9 3Kwangwoon 4Agency University, Seoul, South Korea for Defense Development, Daejon, South Korea Session 1P: Basic Phenomena (poster session ~ 1) Monday, July 9 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Siegbert Kuhn, University Innsbruck, Austria 1P-27 Phenomenon of Parallel Arcs in Large-Scale Magnetically Rotating Arc Plasma Generator W. Xia, J. Zha, B. Bai, X. Zhang, L. Li Department of Thermal Sci. & Energy Eng., University of Science and Technology of China, Hefei, China 1P-28 Distribution of Surface Electric Charge in a Surface Dbd B. Dong1, O. Guaitella2, A. Rousseau2 1R&D, AL-KO THERM GmbH, Jettingen-Scheppach, Germany 2Laboratoire de Physique des Plasmas, Ecole Polytechnique, Palaiseau, France 1P-29 Investigation of Discharge Uniformity in Helium Dielectric Barrier Discharge Jets T. -C. Tsai, D. Staack Mechanical Engineering, Texas A&M University, College Station, TX, USA 1P-30 Breakdown Voltages in Atmospheric Pressure Helium Microplasmas with Added O2, N2 and Ar L. J. Cox1, W. G. Graham1, D. O'Connell2 1Centre for Plasma Physics, Queen's University Belfast, Belfast, Northern Ireland, United Kingdom 2York Plasma Institute, University of York, Heslington, United Kingdom 1P-31 Optical Emission and Probe Diagnostics of Inductively Coupled Ar, O2, and Ar/O2 Plasmas T. H. Chung, M. K. Bae, H. R. Kang, M. W. Seo Physics, Dong-A University, Busan, South Korea 1P-32 Properties of T and H Forms of DC Glow Oxygen Discharge Sustained at Medium Pressures up to 1000 Pa L. Schmiedt, A. Kanka, V. Hrachova Department of Surface and Plasma Science, Charles University Prague, Faculty of Mathematics and Physics, V Holesovickach 2, Prague 8, 18000, Czech Republic 1P-33 Phenomenological Description of a Symmetry Breaking Rotating Instability in HPPMS Discharges S. Gallian1, D. Eremin1, T. Mussenbrock1, R. P. Brinkmann1, A. Hecimovic2, T. de los Arcos2, V. Schulz-von der Gathen2, M. Boeke2, J. Winter2, W. N. G. Hitchon3 1Theoretische Elektrotechnik, Ruhr University Bochum, Bochum, Germany 2Experimentalphysik II, Ruhr University Bochum, Bochum, Germany 3Electrical and Computer Engineering, University of Wisconsin-Madison, Madison, WI, USA 1P-34 Influence of Non-Confined Electrons at the Boundaries in a HPPMS Discharge Limit to Gyro-Average Validity S. Gallian, D. Eremin, T. Mussenbrock, R. P. Brinkmann Theoretische Elektrotechnik, Ruhr University Bochum, Bochum, Germany 33 Technical Program Monday afternoon, July 9 1P-35 Simulations of a Microjet RF He-N2 Discharge with a Hybrid Code D. Eremin, T. Hemke, R. -P. Brinkmann, T. Mussenbrock Ruhr-University Bochum, Bochum, Germany 1P-36 Studies on Relative Contribution of Different Electron Population on Heat Transport Across a Transverse Magnetic Field in Double Plasma Device B. K. Das1, M. Bandyopadhyay2, M. Chakraborty3 1Centre of Plasma Physics-Institute for Plasma Research, Tepesi, Kamrup, Assam, India 2ITER-India, Institute For Plasma Research, Gandhinagar, Gujarat, India 3Centre of Plasma Physics-Institute for Plasma Research, Tepesia, Kamrup, Assam, India 1P-37 Breakdown Charactiristics of Spark Gap Switch in Distilled Water by High Voltage Pulses Y. -S. Byeon1, K. B. Song1, J. H. Park1, H. S. Uhm1, H. -Y. Ryu2, E. H. Choi1 1Kwangwoon University, Seoul, South Korea 2Agency for Defense Development, Daejeon, South Korea 1P-38 Generation of Plasma in Liquid without Bubbles by Nanosecond Pulsed Discharge: Fast Imaging and Modeling D. Dobrynin1, M. Pekker1, M. Shneider2, A. Fridman1 1Drexel University, Philadelphia, PA, USA 2Princeton University, Princeton, NJ, USA 1P-39 Absorption of Intense X-Ray Radiation in Plasma by Multiphoton InverseBremsstrahlung H. K. Avetissian, A. K. Avetissian, A. G. Ghazaryan, G. F. Mkrtchian Centre of Strong Fields Physics, Yerevan State University, Yerevan, Armenia 1P-40 On the Self-Structuring of Plasma in Simple and Multiple Double Layers O. Niculescu1, M. Agop1, D. G. Dimitriu2 1Department of Physics, Gh. Asachi Technical University of Iasi, Iasi, Romania 2Department of Physics, Al. I Cuza University of Iasi, Iasi, Romania 1P-41 Experimental Investigations and Theoretical Study of the Negative Differential Resistance in a Discharge Plasma O. Niculescu1, M. Agop1, P. E. Nica1, D. G. Dimitriu2 1Department of Physics, Gh. Asachi Technical University of Iasi, Iasi, Romania 2Department of Physics, Al. I Cuza University of Iasi, Iasi, Romania 1P-42 Multiple Double Layers Evolution to Chaos in Plasma through a Cascade of SubHarmonic Bifurcations M. Agop1, P. E. Nica1, O. Niculescu1, D. G. Dimitriu2 1Department of Physics, Gh. Asachi Technical University of Iasi, Iasi, Romania 2Department of Physics, Al. I Cuza University of Iasi, Iasi, Romania 1P-43 Non-Differentiable Model and Its Implications in the Dynamics of a Laser Ablation Plasma Structure M. Agop1, P. E. Nica1, O. Niculescu1, S. O. Gurlui2 1Department of Physics, Gh. Asachi Technical University of Iasi, Iasi, Romania 2Department of Physics, Al. I Cuza University of Iasi, Iasi, Romania 34 Technical Program Monday afternoon, July 9 1P-44 Negative Plasma Potential in a Chamber with a Dielectric Coated Plasma Boundary J. P. Sheehan, N. Hershkowitz Nuclear Engineering and Engineering Physics, University of Wisconsin - Madison, Madison, WI, USA Session 1P: Computational Plasma Physics (poster session ~ 1) Monday, July 9 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Andrew J Christlieb, Michigan State University 1P-45 A Novel Implicit Solver for the Vlasov-Maxwell System M. F. Causley, Y. Cheng, A. Christlieb Mathematics, Michigan State University, East Lansing, USA 1P-46 Adaptive Mesh Refinement Based on Revised Integral Deferred Correction Method for Plasma Physics A. J. Christlieb, Q. Tang Department of Mathematics, Michigan State University, East Lansing, MI, USA 1P-47 Lacunae-Based Outflow Boundary Conditions for Refinement Boundaries in AMRPIC E. Wolf1, A. Christlieb1, A. Greenwood2 1Mathematics, Michigan State University, East Lansing, MI, USA 2AFRL, Kirtland AFB, NM, USA 1P-48 Parallel Adaptivity in Beam Optics Analyzer T. Bui1, M. Read1, R. L. Ives1, S. Tendulkar2, M. Beall2 1Calabazas Creek Research, Inc., Mountain View, CA, USA 2Simmetrix Inc., Clifton Park, NY, USA 1P-49 Modeling Kinetic Plasma Instabilities Using a Conservative Continuum Model G. Vogman1, P. Colella2 1Applied Science and Technology Program, University of California - Berkeley, Berkeley, CA, USA 2Electrical Engineering and Computer Science, University of California - Berkeley, Berkeley, CA, USA 1P-50 Development of a Parallel Fluid Modeling Code Considering EM Wave Effect C. -T. Hung, K. -M. Lin, J. -S. Wu Mechanical Engineering, National Chiao Tung University, Hsinchu, Taiwan 1P-51 Reduction of Reaction Mechanisms in Plasma Chemistry R. Hrach1, V. Hrachova1, J. -C. Legrand2, A. -M. Diamy2 1Department of Surface and Plasma Science, Charles University, Faculty of Mathematics and Physics, Prague, Czech Republic 2Universite Pierre et Marie Curie, Paris, France 1P-52 Comparative Studies of Pulsed and Sinusoidal Dielectric-Barrier Discharges in Atmospheric N2 Y. Wang, J. Li, D. Wang School of Physics and Optoelectronic Technology, Dalian University of Technology, Dalian, China 35 Technical Program Monday afternoon, July 9 1P-53 Cold Atmospheric Pressure Plasmas Driven by Nanosecond Pulses with Radio Frequency Repetition Rates: Electron Dynamics and Plasma Chemistry C. O'Neill1, K. Niemi2, T. Gans2 1School of Mathematics and Physics, Centre for Plasma Physics, Queens University Belfast, Belfast, United Kingdom 2Department of Physics, York Plasma Institute, University of York, York, United Kingdom 1P-54 Modelling of Atmospheric Plasma Jets S. Kelly, M. Turner National Center for Plasma Science and Technology, Dublin City University, Dublin, Ireland 1P-55 Emission Parameters of an Explosive-Emission Cathode During the Metal-toPlasma Transition I. V. Uimanov Institute of Electrophysics UB of RAS, Ekaterinburg, Russian Federation 1P-56 Kinetic Model of the Ignition of Cathode Explosive Emission Center by Plasma Surface Interaction D. L. Shmelev1, G. A. Mesyats2, S. A. Barengolts2 1Institute of Electrophysics RAS, Ekaterinburg, Russian Federation 2Lebedev Physical Institute RAS, Moscow, Russian Federation 1P-57 Simulation of Exploding Metal Wire in Underwater Discharge Experiments for Warm Dense Matter Study D. -K. Kim, J. Hur, S. -H. Baek R&D Institute / Division 4, Agency for Defense Development, Daejeon, South Korea 1P-58 1 Dimensional Atmospheric Particla-in-Cell Plasma Simulation on the GPU N. Hanzlikova, M. M. Turner School of Physical Sciences, NCPST, Dublin City University, Dublin, Ireland 1P-59 Numerical Analysis of the Anomalous Doppler Instability R. Bryson1, D. C. Speirs1, M. King1, K. Ronald1, I. Vorgul2, R. A. Cairns2, A. D. R. Phelps1, R. Bingham3, S. L. McConville1, K. M. Gillespie1, A. W. Cross1, R. Trines3 1Department of Physics, University of Strathclyde, Glasgow, United Kingdom 2School of Mathematics and Statistics, University of St Andrews, St Andrews, United Kingdom 3STFC Rutherford Appleton Laboratory, Didcot, Oxfordshire, United Kingdom 1P-60 Study of GPS Ionospheric Scintillations Over Equatorial Anomaly Station Bhopal During Low Solar Activity Period S. Mukherjee1, P. K. Purohit2 1Physics, Space Science Laboratory, Department of Physics, Barkatullah University, Bhopal462026, India, Bhopal, India 2Applied Sciences, National Institute of Technical Teachers' Training and Research, Shamla Hills, Bhopal, India 1P-61 Three Dimensional Modelling of a μN Radiofrequency Ionthruster (RIT) R. Henrich, C. Heiliger I. Physikalisches Institut, Justus-Liebig-University, Giessen, Germany 36 Technical Program Monday afternoon, July 9 1P-62 Saturation of Multipactor in Rectangular Waveguide C. J. Lingwood1, G. Burt1, A. C. Dexter1, J. D. Smith2, P. Goudket3, P. H. Stoltz4 1Engineering Department, Lancaster University, Lancaster, Lancashire, United Kingdom 2Tech-X UK Ltd, Warrington, Cheshire, United Kingdom 3STFC Daresbury Laboratory, Warrington, Cheshire, United Kingdom 4Tech-X Corporation, Boulder, CO, USA 1P-63 Parallel Fluid Modeling of a Dome- Shape Inductively Coupled Plasma Reactor with Fluorocarbon Precusor Y. -M. Chiu, C. -T. Hung, J. -S. Wu* Mechanical Engineering, National Chiao Tung University, Hsinchu, Taiwan Session 1P: Partially Ionized Plasmas (poster session) Monday, July 9 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Miles Turner, Dublin City University 1P-64 Study of Stochastic Heating Using Particle-in-Cell Simulation in Single Frequency Capacitively Coupled Plasma Discharges S. Sharma, M. M. Turner National Centre for Plasma Science and Technology, Dublin City University, Dublin, Ireland 1P-65 Electromagnetic Modes Supported by Neutral Dynamics in Partially Ionised Plasma A. A. Shaikh Department of Physics and Astronomy, The University of Leicester, Leicester LE1 7RH, UK 1P-66 Influence of Non-Unique Modified Forms of Saha and Guldberg-Waage Equations on Thermophysical Properties of Two-Temperature SF6 Plasmas W. Wang1,2, J. D. Yan2, M. Rong1 1Shool of Electrical Engineering, Xi’an Jiaotong University, Xi'an, China 2Department of Electrical Engineering and Electronics, University of Liverpool, Liverpool, UK 1P-67 Particle in Cell Simulations of Initial Argon Dielectric Barrier Discharges M. A. Huerta1, L. D. Ludeking2, A. J. Woods2 1Physics Department, University of Miami, Coral Gables, FL, USA 2Magic User Support, ATK Mission Systems Group, Newington, USA 1P-68 Influences of Impedance Matching Network on Pulse-Modulated RF Atmospheric Pressure Glow Discharges Z. F. Ding1, W. G. Huo1,2, K. Xu1 1School of Physics and Optoelectronic Technology, Dalian University of Technology, Dalian, Liaoning, China 2School of Physics and Electronic Technology, Liaoning Normal University, Dalian, Liaoning, China 1P-69 Microplasma and VUV-photoionization Gas Analyzers Based on Collisional Electron Spectroscopy (CES) A. A. Kudryavtsev1, A. S. Mustafaev2, A. B. Tsyganov2, A. S. Chirtsov1 1Department of Physics, St.-Petersburg State University, Sanct-Petersburg, Russian Federation 2Department of General and Technical Physics, St.-Petersburg State Mining University, SanctPetersburg, Russian Federation 37 Technical Program Monday afternoon, July 9 1P-70 Evolution of Ar Metastable Atom Density with Electron Density in Ar ICP Discharge M. Park1, H. -Y. Chang2, S. -J. You3, J. -H. Kim3 1Nuclear Fusion Engineering & Technology Development Center, Korea Atomic Energy Research Institute (KAERI), Daejeon, South Korea 2Department of Physics, Korea Advanced Institute of Science and Technology (KAIST), Daejeon, South Korea 3Center for Vacuum Technology, Korea Research Institute of Standards and Science (KRISS), Daejeon, South Korea Session 1P: Nonequilibrium Plasma Applications (poster session ~ 1) Monday, July 9 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Vincent Puech, University Paris-Sud 11 1P-71 Electrical Parameters of the Streamers of the Nonequilibrium Atmospheric Plasma Jets A. Shashurin1, M. N. Shheider2, M. Keidar1 1George Washington University, Washington, USA 2Princeton University, Princeton, USA 1P-72 Homogeneous Dielectric Barrier Discharges in Atmospheric Gases H. Luo, J. Ran, X. Wang Department Electrical Engineering, Tsinghua University, Beijing, China 1P-73 Experimental Study of Homogeneous Dielectric Barrier Discharge in Air at Atmospheric Pressure J. X. Ran, H. Y. Luo, X. X. Wang Department of Electrical Engineering, Tsinghua University, Beijing, China 1P-74 Development of DBD Based Excimer Sources and Optimization Study of Discharge Parameters U. N. Pal Microwave Tubes, CSIR-CEERI, Pilani, Pilani, India 1P-75 Effects of Boundaries on Plasma Jet Propagation M. A. Akman, M. Laroussi Laser and Plasma Engineering Institute, Old Dominion University, Norfolk,VA, USA 1P-76 Measurement of Hydroxyl Radical and Nitric Oxide Density Generated from the Atmospheric Pressure Bioplasma Jet Y. H. Kim, G. S. Cho, E. H. Choi Department of Electrophysics, Kwangwoon University, Seoul, South Korea 1P-77 Gas Flow Effect on E. Coli and B. Subtilis Bacteria Inactivation in Water Using a Pulsed Dielectric Barrier Discharge B. G. Rodriguez-Mendez1, A. N. Hernandez-Arias1, R. Lopez-Callejas1, R. Valencia-Alvarado1, A. Mercado-Cabrera1, R. Pena-Eguiluz1, S. R. Barocio1, A. E. Munoz-Castro1, A. de la Piedad Beneitez2 1Departamento de Fisica, Instituto Nacional de Investigaciones Nucleares, Mexico, Mexico 2Division de Estudios de Posgrado e Investigacion, Instituto Tecnologico de Toluca, Mexico, Mexico 38 Technical Program Monday afternoon, July 9 1P-78 Optimisation of Gas Ehd Pump with a Nozzle Downstream R. Prasad IIT Madras/Aerospace Engineering, IIT Madras, Chennai, Tamil Nadu, India 1P-79 Diagnostics of Dielectric Barrier Discharge Plasma and Comparison of the Results with Pic Code P. Gulati, U. N. Pal, R. Prakash PlasmaGroup, Microwave Tube Div., Central Electronic Engineering Research Institute, Pilani,Rajasthan, India 1P-80 Control of Discharge Current in a Plasma Jet for Biomedical Application W. S. Kang, D. H. Lee, M. Hur, Y. -H. Song Korea Institute of Machinery & Materials, Daejeon, Republic of Korea 1P-81 Experimental Characterization and Modeling of an Atmospheric Pressure Radiofrequency Plasma Needle R. Barni, E. Grimoldi, C. Riccardi Dipartimento di Fisica G.Occhialini, Universita' degli Studi di Milano-Bicocca, Milano, Italy 1P-82 Numerial Simulation of a Coaxial Microplasma Jet at Atmospheric Pressure T. Hemke1, J. Trieschmann1, A. Wollny1, N. Y. Babaeva2, M. J. Kushner2, R. P. Brinkmann1, T. Mussenbrock1 1Theoretical Electrical Engineering, Ruhr-University Bochum, Bochum, Germany 2Department of Electrical Engineering and Computer Science, University of Michigan, Ann Arbor, Michigan, USA 1P-83 Photoresists Stripping Using Dielectric Barrier Glow Discharge Plasma System Y. W. Wu, S. X. Jia, L. L. Zhao, S. G. Wang Institute of Microelectronics, Academy of Chinese Sciences, Beijing, China 1P-84 Characteristics of Plasma Jet from Syringe Electrode Covered with Glass Tube W. Y. Lee, S. Han, G. -H. Han, M. Lee, H. -K. Yu, G. Cho Department of Electrophysics, Kwangwoon University, Seoul, South Korea 1P-85 Investigation of Triplet Atmospheric Cold Plasma Jet for Decontamination Applications S. Motallebi, F. Sohbatzadeh, S. Mirzanejhad, M. Ghasemi Department of Atomic and Molecular Physics, Science Faculty, University of Mazandaran, Babolsar, Iran 1P-86 Time Resolved Images of Plasma Bullet for Different Electrode Gaps D. Maletic, N. Puac, N. Selakovic, S. Lazovic, G. Malovic, Z. L. Petrovic Institute of Physics, University of Belgrade, Belgrade, Serbia 1P-87 Charge Distribution on the Surface of a Dielectric Barrier Discharge Actuator C. A. Borghi Dpetment of Electrical Engineering, University of Bologna, Bologna, Italy 1P-88 2.45 GHz Atmospheric Pressure Waveguide Based Plasma Designs F. Bozduman, E. Teke, A. Gulec, L. Oksuz Physics, Suleyman Demirel University, ISPARTA, Turkey 39 Technical Program Monday afternoon, July 9 1P-89 Numerical Simulation of Radio Frequency Atmospheric Pressure Glow Discharges for the Applications in the Microbial Genome Mutation H. -P. Li1, Z. -B. Wang1, N. Ge1, M. -Y. Fang2, L. -H. Jin2, C. Zhang2, X. -H. Xing2, C. -Y. Bao1 1Department of Engineering Physics, Tsinghua University, Beijing, China 2Department of Chemical Engineering, Tsinghua University, Beijing, China Session 1P: Generators (poster session) Monday, July 9 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Stephen Bayne, Texas Tech. University 1P-90 Integrated Experimental and Zero-Dimensional Numerical Analysis of an Atmospheric Pressure Reactive Argon Plasma Jet Generated by Dielectric Barrier Discharges A. Yang1,2,3, Q. -Y. Nie2, Z. -B. Wang2, H. -P. Li2, X. -Z. Zhang3, P. -S. Le2, C. -Y. Bao2 1Biomedical Engineering Institute, Southern Medical University, Guangzhou, China 2Department of Engineering Physics, Tsinghua University, Beijing, China 3Institute of Medical Equipment, Academy of Military Medical Sciences, Tianjin, China 1P-91 Studies on the Electrical Characteristics of a Radio-Frequency AtmosphericPressure Plasma Jet Array Q. Zhou1, Z. -B. Wang2, Q. -Y. Nie2, H. -P. Li2, Q. Chen1, C. -Y. Bao2 1Lab of Plasma Physics and Materials, Beijing Institute of Graphic Communication, Beijing, China 2Department of Engineering Physics, Tsinghua University, Beijing, China 1P-92 Effect of Subnanosecond Pulsed Power to Embedded System M. Akiyama1, S. Sudou1, D. Azumaya1, T. Goh1, T. Sakamoto2, H. Akiyama2 1Takanashi, Hagisyo, Ichinoseki National College of Technology, Ichinoseki, Iwate, Japan 22-39-1, Kurokami, Kumamoto University, kumamoto, Japan 1P-93 Zero-Dimensional Calculations of Magnetic Flux Compression by Plasma Liners B. Jin1,2, L. Chen2, W. P. Xie2, Y. K. Pu1 1Department of Engineering Physics, Tsinghua University, Beijing, China 2Institute of Fluid Physics, China Academy of Engineering Physics, Mianyang, Sichuan, China 1P-94 Breakdown of Semi-Insulating Gallium Arsenide under Pulsed Electric Field J. Liu, H. Liu, J. Yuan, H. Li, W. Xie Institute of Fluid Physics, China Academy of Engineering Physics, Mianyang, China Session 1P: Insulation and Dielectric Breakdown (poster session) Monday, July 9 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Andreas A Neuber, TTU, Pulsed Power Laboratory 1P-95 Experimental Study of Nanosecond Surface Microarc Discharge M. Shemet, V. Belko, O. Emelyanov Electric Insulation, Cables and Capacitors, St. Petersburg State Polytechnical University, St. Petersburg, Russian Federation 1P-96 Simulation of High-Voltage DC Breakdown for Angled Dielectric Insulators Including Space-Charge and Gas-Collision Effects M. P. Aldan1, J. P. Verboncoeur2 40 Technical Program 1Nuclear Monday afternoon, July 9 Engineering, University of California, Berkeley, Berkeley, CA, USA and Computer Engineering, Michigan State University, East Lansing, MI, USA 2Electrical 1P-97 Investigation on Developing Process of Impulse Flashover Across Alumina Ceramic with Asymmetric Electrodes in Vacuum H. B. Mu, J. Y. Zhan, X. Z. Hang, G. J. Zhang State Key Laboratory of Electrical Insulation and Power Equipment, School of Electrical Engineering, Xi'an Jiaotong University, Xi'an, Shaanxi, China 1P-98 Experiments of Vacuum UV Absorption During Low-Temperature Plasma Formation at Atmospheric Pressure G. R. Laity1, A. S. Fierro1, L. L. Hatfield1, A. A. Neuber1, K. Frank2 1Center for Pulsed Power and Power Electronics, Texas Tech University, Lubbock, TX, USA 2Erlangen Centre for Astroparticle Physics, Friedrich Alexander University at Erlangen Nuernberg, Erlangen, Germany Session 1P: Switching (poster session) Monday, July 9 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Luis Redondo, Nuclear Physics Center from Lisbon University 1P-99 Particle-in-Cell Simulations of Species Separation in the Plasma Opening Switch S. Richardson, D. Hinshelwood, S. Swanekamp, P. Ottinger, J. Schumer, T. Mehlhorn Pulsed Power Physics Branch, Naval Research Laboratory, Washington, DC, USA 1P-100 A Compact Coaxial Gas Filled Switch* X. Zou1, X. Cai2, X. Wang1 1Department of Electrical Engineering, Tsinghua University, Beijing, China 2College of Electrical Engineering, Northeast Dianli University, Beijing, China 1P-101 Measurement of 2-Dimensional Electron Density Distribution over Air-Blast Arc Discharge Using Shack-Hartmann Type Laser Wavefront Sensor Y. Inada, S. Yamagami, S. Matsuoka, A. Kumada, H. Ikeda, K. Hidaka Department of Electrical Engineering and Information Systems, The University of Tokyo, Bunkyoku, Tokyo Prefecture, Japan 1P-102 Development of Protection Electrodes for High-Dielectric Triggersystem Used in Gas-Discharge-Switches G. Loisch, M. Iberler, J. Jacoby IAP/Plasma Physics, Goethe Universität Frankfurt, Frankfurt, Germany 1P-103 Current Trends in the Development of High-Current Switching Systems in Frankfurt M. Iberler, C. Hock, J. Jacoby, G. Loisch, J. Wiechula IAP/Plasma Physics, Goethe Universität Frankfurt, Frankfurt, Germany 1P-104 An Atmospheric Pressure Gas Switch Triggered by Array Microhollow Cathode Discharge Y. Teng, K. Liu, J. Qiu, L. Li Institute of Electric Light Sources, Fudan University, Shanghai, China 41 Technical Program Monday afternoon, July 9 1P-105 Analysis of Anode Thermal Process of Vacuum Arc C. Xiang1,2, J. Yan2, J. Zou1, M. Liao1 1School of Electrical Engineering, Dalian University of Technology, Dalian City, P.R. China 2Department of Electrical Engineering and Electronics, The University of Liverpool, Liverpool, UK 1P-106 High-Voltage Pulse Generator to Produce Plasma Channels for Laser Wakefield Acceleration N. C. Lopes, C. Russo, R. A. Bendoyro, J. Jiang Grupo de Lasers e Plasmas, Instituto de Plasmas e Fusao Nuclear, Instituto Superior Tecnico, Lisboa, Portugal Session 1P: Compact Pulsed Power and Applications (poster session) Monday, July 9 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Masahiro Akiyama, Ichinoseki National College of Technology 1P-107 Specific Problems of Sliding Contact in Railgun. the Influence of Hall-Effect in the Micro-Plasma of Contact Zone V. T. Chemerys Theoretical Physics, National Aviation University of Ukraine, Kyiv, Kyiv Region, Ukraine 1P-108 Miniature Triggered Vacuum Switches for Precise Initiation of Insensitive Loads in Demanding Environments B. M. Coaker1, R. J. Seddon1, J. S. Bower1, C. R. Bell2 1Microwave Technology Centre, e2v, Lincoln, United Kingdom 2RF Power Division, e2v, Chelmsford, United Kingdom 1P-109 Design and Preliminary Results of a Recyclable Transmission Line Testing Experiment A. M. Steiner1, R. M. Gilgenbach1, D. A. Chalenski1, S. G. Patel1, D. A. Yager-Elorriaga1, Y. Y. Lau1, M. E. Cuneo2 1Nuclear Engineering and Radiological Sciences, University of Michigan, Ann Arbor, MI, USA 2Sandia National Laboratories, Albuquerque, NM, USA 1P-110 Runaway Electron Preionized Diffuse Discharges in Atnospheric Pressure Air in Point-to-Point Gaps in Repetitive Pulsed Mode E. A. Sosnin, E. H. Baksht, V. F. Tarasenko, Y. V. Shut’ko, M. V. Erofeev Optical Radiation Laboratory, High Current Electronics Institute SB RAS, Tomsk, Russian Federation 1P-111 Algae Treatment Effects by Pulse Power Discharge in the Water S. B. Gnapowski1, H. Akiyama1, T. Sakugawa1, R. Ruma1, M. Akiyama2 1Frontier Technology for Electrical Energy, Kumamoto University, Kumamoto, Japan 2Electrical and Computer Engineering, Ichinoseki National College of Technology, Ichinoseki, Japan 1P-112 A Compact Low Inductance Pulse Energy Driver System for Capillary Discharge EUV Laser Development K. S. Low1,2, K. P. Cheong1, A. K. F. Ng1, C. H. Low1, C. Y. Chia1, K. W. Low1, D. Mahadevan1 1Specscan Sdn. Bhd., Petaling Jaya, Selangor, Malaysia 2Department of Physics, University of Malaya, Kuala Lumpur, Malaysia 42 Technical Program Monday afternoon, July 9 1P-113 Experimental and Computational Investigations of Ion Dynamics in the Kansas State University Dense Plasma Focus KSU-DPF A. E. Abdou1, M. I. Ismail1, A. E. Mohamed1, S. Lee2, S. H. Saw3 1Kansas State University, Department of Mechanical and Nuclear Eng, Manhattan, USA 2Institute for Plasma Focus Studies, Melbourne, Australia, Melbourne, Australia 3INTI International University, 71800 Nilai, Malaysia, Nilai, Malaysia 1P-114 On Generation and Disruption of Picosecond Runaway Electron Beams During the Gas Breakdown at Strong Overvoltage S. A. Barengolts1, G. A. Mesyats2, M. M. Tsventoukh2, I. V. Uimanov3 1Prokhorov General Physics Institute RAS, Moscow, Russian Federation 2Lebedev Physical Institute RAS, Moscow, Russian Federation 3Institute of Electrophysics RAS, Ekaterinburg, Russian Federation Session 1P: Fusion - Inertial, Magnetic and Alternate Concepts (poster session) Monday, July 9 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Jeremy Chittenden, Imperial College 1P-115 Plasma Stabilization Due to Combination of a Strong and Alternating-Sign Magnetic Field Line Curvature M. M. Tsventoukh Lebedev Physical Institute RAS, Moscow, Russian Federation 1P-116 Single Particle Tracing in Stellarators A. E. Abdou Mechanical and Nuclear Engineering, Kansas State University, Department of Mechanical and Nuclear Eng, Manhattan, USA 1P-117 Transformation of Axial Magnetic Field During Neutron Production on the MA Plasma Focus with Deuterium Filling P. Kubes1, D. Klir1, J. Kravarik1, K. Rezac1, V. I. Krauz2, K. N. Mitrofanov2,3, M. Paduch4, T. Piszarczyk4, M. Scholz4, L. Karpinski4, T. Chodukowski4, Z. Kalinowska4, E. Zielinska4 1FEE, CTU Prague, Prague, Czech Republic 2NRC Kurchatov Institute, Moscow, Russia 3SRC RF Triniti, Troitsk, Russia 4IFPILM, Warsaw, Poland 1P-118 Investigation of the Mechanisms Limiting Fusion Rate and Neutron Production with a Plasma Focus Using a 2-D Time- and Space-Resolved Streaked Image System M. J. Berninger, C. Hagen, T. Meehan, S. Molnar, L. Robbins Physics and Analysis, National Security Technologies, LLC., Las Vegas, NV, USA 1P-119 A Semi-Experimental Investigation on Charactristics of the Pinched Deuterium in Dena Facility M. Khoshduni Farahani, M. Amir Hamzeh Tafreshi Physics, Student in Master Degree, Tehran, Iran 1P-120 Extending Field-Reversed Configuration Lifetime for High Energy Density Plasma Experiments C. Grabowski1, J. H. Degnan1, D. J. Amdahl1, M. T. Domonkos1, E. L. Ruden1, W. M. White1, T. P. Intrator2, G. A. Wurden2, J. Sears2, T. Weber2, D. G. Gale3, M. R. Kostora3, A. Lerma3, 43 Technical Program Monday afternoon, July 9 J. L. McCullough3, W. E. Sommars3, M. H. Frese4, S. D. Frese4, J. F. Camacho4, S. K. Coffey4, G. F. Kiuttu5, S. Fuelling6, B. S. Bauer6, A. G. Lynn7 1Directed Energy Directorate, Air Force Research Laboratory, Kirtland AFB, NM, USA 2Los Alamos National Laboratory, Los Alamos, NM, USA 3Science Applications International Corporation, Albuquerque, NM, USA 4NumerEx, Albuquerque, NM, USA 5VariTech Services, Albuquerque, NM, USA 6University of Nevada, Reno, NV, USA 7University of New Mexico, Albuquerque, NM, USA 1P-121 RF Pre-Preionization for the FRCHX Experiment G. F. Kiuttu1, M. R. Kostora2, A. Lerma2, E. L. Ruden3, C. Grabowski3, J. H. Degnan3 1VariTech Services, Albuquerque, NM, USA 2SAIC, Inc, Albuquerque, NM, USA 3Directed Energy Directorate, Air Force Research Laboratory, Kirtland AFB, NM, USA 1P-122 Gas Puffing for the FRCHX Experiment J. H. Degnan1, C. Grabowski1, A. Lerma2, M. Kostora2, D. Gale2, N. J. Montano2, T. Montoya3 1Directed Energy Directorate, Air Force Research Laboratory, Kirtland AFB, NM, USA 2SAIC, Albuquerque, NM, USA 3Voss Scientific, Albuquerque, NM, USA 1P-123 Detailed Comparisons of 2-D MHD Simulations to Theta-Pinch Preionization and Flux Trapping Experiments M. H. Frese, S. D. Frese NumerEx, Albuquerque, NM, USA 1P-124 3-D Simulations of Field Reversed Configurations Using MACH3 S. D. Frese, M. H. Frese NumerEx, Albuquerque, NM, USA 1P-125 A Magneto-Inertial Fusion Driven Rocket J. Slough, D. Kirtley, A. Pancotti, M. Pfaff, C. Pihl, G. Votroubek MSNW LLC, Redmond, WA, USA 1P-126 Suppressing MHD Instabilities in HT-7 Tokamak F. Zhong, J. Luo, S. Shu Applied Physics, College of Sciences, Donghua University, P. R. China, Shanghai, China 1P-127 Self-Consistent Simulations of Iter Hybrid Scenarios Including Momentum Transport and Mhd Activities Y. -S. Na1, H. -S. Kim1, K. Kim1, W. -J. Lee1, J. Lee1, T. S. Hahm1, O. Kwon2 1Nuclear Engineering Department, Seoul National University, Seoul, South Korea 2Physics Department, Daegu University, Daegu, South Korea 1P-128 Probe Diagnostics in the Edge of Kstar Tokamak Plasma Using Fast Floating Harmonic Method D. H. Kim1, J. Y. Bang2, K. Yoo1, Y. S. Kim2, Y. W. Nam3, K. D. Lee3, S. H. Hong3, C. W. Chung2 1Department of Nano-scale Semiconductor Engineering, Hanyang University, Seoul, South Korea 2Department of Electrical Engineering, Hanyang University, Seoul, South Korea 3National Fusion Research Institute, Daejeon, South Korea 44 Technical Program Monday afternoon, July 9 1P-129 Revision of the Stabilization Effect on the Rayleigh-Taylor Instability by Quantum Effects A. De Andrea Gonzalez Dpto. de Fisica, Universidad Carlos III de Madrid, Madrid, Spain 1P-130 Limitations of Normal Mode Analysis in a Simple Analytic Model for Ablative Stabilization A. De Andrea Gonzalez Dpto. de Fisica, Universidad Carlos III de Madrid, Madrid, Spain 1P-131 Q Value, Maxwellian Distribution, Heating Efficiency, and Gamma Factor S. S. M. Chung, C. L. Pan Department of Physics, National Tsing Hua University, Hsinchu, Taiwan 1P-132 ePLAS Analysis of 2D Shock Ignition R. J. Faehl, R. J. Mason, R. C. Kirkpatrick Research Applications Corporation, Los Alamos, NM, USA 1P-133 Beam Instabilities in Laser-Plasma Interactions Relevant to Fast Ignition K. A. Humphrey1, D. C. Speirs1, M. King1, K. Ronald1, A. D. R. Phelps1, R. Bingham2, R. Trines2, P. Norreys2, R. A. Cairns3, L. O. Silva4, F. Fiuza4 1SUPA, Department of Physics, University of Strathclyde, Glasgow, United Kingdom 2STFC Rutherford Appleton Laboratory, Oxford, United Kingdom 3School of Mathematics and Statistics, University of St. Andrews, St. Andrews, United Kingdom 4GoLP/Centro de Fisica dos Plasmas, Instituto Superior Tecnico, Lisbon, Portugal 1P-134 Characterization of MeV Electron Generation using 527nm Laser Pulses for Fast Ignition R. Fedosejevs1, D. P. Higginson2,3, H. Friesen1, A. Sorokovikova2, C. Jarrott2, A. Link3,4, E. Kemp3,4, D. Hey3, Y. Ping3, I. Bush5, A. Beaudry1, J. Tait1, J. N. Westwood1, H. F. Tiedje1, S. Singh1, M. Mo1, Y. Y. Tsui1, B. Westover2,3, F. N. Beg2, K. U. Akli4, R. R. Freeman4, L. D. Van Woerkom4, D. Schumacher4, C. Chen3, M. H. Key3, H. S. McLean3, P. Patel3, T. Doeppner3, R. B. Stephens6, J. Pasley5, R. Ramis7 1University of Alberta, Edmonton, AB, Canada 2University of California San Diego, La Jolla, CA, USA 3Lawrence Livermore National Laboratory, Livermore,CA, USA 4The Ohio State University, Columbus, OH, USA 5University of York, York, UK 6General Atomics, La Jolla, CA, USA 7Universidad Politecnica de Madrid, Madrid, Spain Session 1P: Plasmas for Lighting and Flat Panel Displays (poster session) Monday, July 9 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Mikhail S Benilov, Universidade da Madeira 1P-135 A Study of the Flat Electron-Excited-Phosphor Dark Luminescent Lamp S. Kitsinelis, Y. Zhang, G. Zissis LAPLACE, Paul Sabatier University Toulouse, Toulouse, France 45 Technical Program Monday afternoon, July 9 1P-136 Plasma Propagation and Standing Waves in Spiral Microplasma Channels J. H. Cho, S. -J. Park, J. G. Eden Department of Electrical and Computer Engineering, University of Illinois, Urbana, IL, USA 1P-137 Short Pulse Type Dual Sustain Discharge Waveform for Improving Discharge Efficiency in Microdischarge Cell H. -S. Tae, H. D. Park, J. H. Kim, C. -S. Park School of Electrical Engineering, College of IT Engineering, Kyungpook National University, Daegu, South Korea 1P-138 Analysis on Discharge Characteristics of MgCaO Crystal Powders on Li-Doped MgO Layer in AC Plasma Display Panels C. -S. Park1, H. -S. Tae1, E. Y. Jung2 1School of Electrical Engineering, College of IT Engineering, Kyungpook National University, Daegu, South Korea 2Core Technology Lab., Corporate R&D Center, Samsung SDI Company Ltd., Cheonan, South Korea 1P-139 Plasma Propagation Phenomena in Long Discharge Tubes, Plasma Jets, and Plasma Display Panels G. -H. Han, H. Kim, Y. Kim, E. -H. Choi, H. S. Uhm, G. Cho Department of Electrophysics, Kwangwoon University, Seoul, South Korea Session 1P: Environmental and Industrial applications (poster session) Monday, July 9 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Ahmed Khacef, University d'Orleans, France 1P-140 The Synthesis of Magnetic Nanoparticles by Laser Ablation in Different Solvents H. R. Yousefi1, B. S. Kariman1, M. F. Aghamir2 1Plasma Physics Research Center, Science and Research Branch, Islamic Azad University, Tehran, Iran, Tehran, Iran 2Department of Physics University of Tehran, Tehran, Iran 1P-141 Crystalizing Metallic Compound Film by Ion Irradiation in Plasma N. Sakudo, N. Ikenaga, Y. Kishi, Z. Yajima Kanazawa Institute of Technology, 3-1 Yatsukaho, Hakusan, Ishikawa, Japan 1P-142 The Effect of Heat Treatment on Osteogenic Property of Sputtered Antibacterial Silver-Titanium Oxide Nanocomposite Films D. -H. Song1, S. -H. Uhm1, S. -E. Kim1, J. -S. Kwon1, J. -G. Han2, K. -N. Kim1 1College of Dentistry, Yonsei University, Research Center for Orofacial Hard Tissue Regeneration, Seoul, South Korea 2Sungkyunkwan University, Center for Advanced Plasma Surface Technology, Suwon, South Korea 1P-143 Time-Dependent Growth of Titania Nanotubes from Sputtered Titanium Thin Films for Bio-Application S. -H. Uhm1, D. -H. Song1, J. -S. Kwon1, S. -B. Lee1, J. -G. Han2, K. -M. Kim1, K. -N. Kim1 1College of Dentistry, Yonsei University, Research Center for Orofacial Hard Tissue Regeneration, Seoul, South Korea 2Sungkyunkwan University, Center for Advanced Plasma Surface Technology, Suwon, South Korea 46 Technical Program Monday afternoon, July 9 1P-144 Characteristics of Operating Mode in a Rotating Arc and Optimization of Chemical Process by Control of the Mode K. -T. Kim, D. H. Lee, H. S. Kang, I. M. Kim Plasma Engineering, Korea Institite of Machinery and Materials, Daejeon, South Korea 1P-145 Physiochemical Parameters of Treated Wastewater by KrCl Excilamp B. Rahmani1, N. Benhamouche2, M. Talhi2, E. R. Rahmani3, S. Avtaeva4, G. Zissis5,6 1Electronics Department, Faculty of Electrical Engineering, University of Science and Technology (USTO-MB), Oran, Algeria 2Applied Molecular Genetics Department, Faculty of Science, University of Science and Technology (USTO-MB), Oran, Algeria 3Saliege- 3 Rue Bernanos., Balma-Cedex ,Toulouse, France 4-Kyrgyz-Russian Slavic University, Bishkek, Kyrgyz Republic 5UPS, INPT; LAPLACE Université de Toulouse 3, Toulouse Cedex 9, France 6LAPLACE, CNRS Laplace, Toulouse Cedex 9, France 1P-146 Atmospheric-Pressure Cold Plasma for One-Step Deposition of TiO2 Photocatalytic Films X. -S. Li, D. -L. Chang, L. -B. Di, A. -M. Zhu Lab of Plasma Physical Chemistry, Dalian University of Technology, Dalian, China 1P-147 Improving the Corrosion Resistance of Biodegradable Magnesium Alloy by Plasma Dual Ion Implantation M. I. Jamesh, G. Wu, Y. Zhao, P. K. Chu Department of Physics and Materials Science, City University of Hong Kong, Hong Kong, China 1P-148 Using the Diffuse Coplanar Surface Barrier Discharge for Improvement of Felting Properties of Animal Fibres J. Vorac, V. Stepanova, P. Slavicek, P. Stahel, M. Cernak Department of Physical Electronics, Faculty of Science, Masaryk University, Brno, Czech Republic 1P-149 Nitridation of Steel 460LI-21Cr by Plasma Immersion Ion Implantation in Capacitively Couple Radio Frequency Plasma H. Bhuyan, B. Bora, M. Favre, E. S. Wyndham, H. Chuaqui Physics, Pontificia Universidad Católica de Chile, Santiago, Chile 1P-150 Plasma Made Antireflective GaAs Nanograss S. Ravipati1, F. H. Ko1, J. Shieh2, C. C. Yu3, H. L. Chen3, S. H. Chen4 1Department of Materials Science and Engineering, National Chiao Tung University, Hsinchu, Taiwan 2Department of Materials Science and Engineering, National United University, Miaoli, Taiwan 3Department of Materials Science and Engineering, National Taiwan University, Taipei, Taiwan 4Nano CMOS Device Technology, National Nano Device Laboratories, Hsinchu, Taiwan 1P-151 A Method for Generating Plasma Activated Water and Its Biological Assessments S. R. Yoo1, J. S. Park1, S. M. Ryu1, E. J. Hong1, T. Lho1, S. O. Jang1, G. H. Song2, S. I. A.3 1National Fusion Research Institute, Daejeon, South Korea 2TEKorea, Suwon, South Korea 3JSC Technosytem-ECO, Moscow, Russia 47 Technical Program Monday afternoon, July 9 1P-152 Plasma-Catalyst Interaction for Removel of Methane and Propene in Air at Atmospheric Pressure T. Pham Huu, J. M. Cormier, A. Khacef GREMI, Polytech'Orleans, Orleans, France 1P-153 Atmospheric Plasma Jet Array for Large Scale Surface Treatment M. Ghasemi1,2, J. W. Bradley1, J. L. Walsh1 1Departmentof Electrical Engineering & Electronics, University of Liverpool, Liverpool, United Kingdom 2Department of Atomic & Molecular Physics, Faculty of Science, University of Mazandaran, Babolsar, Iran 1P-154 Characteristics of High-Power Gliding Arc Plasma Reformer for Industrial Applications I. Chernets, G. Nirenberg, A. Rabinovich, A. Fridman A.J. Drexel Plasma Institute, Drexel University, Camden, NJ, USA 1P-155 Effects of Plasma Treated Water on Plants D. Park, D. Dobrynin, G. Fridman, A. Fridman Drexel University, Philadelphia, PA, USA 1P-156 Plasma Decontamination of Sealed Packages H. E. Potts, D. A. Diver Department Physics and Astronomy, University of Glasgow, Glasgow, United Kingdom 1P-157 Time Resolved Spectroscopy of an Underwater Dielectric Barrier Discharge Plasma Jet S. M. Nowak Gucker, J. E. Foster Nuclear Engineering and Radiological Sciences, University of Michigan-Ann Arbor, Ann Arbor, MI, USA 1P-158 Steam Plasma Jet Treatment of Phenol in Aqueous Solution at Atmospheric Pressure G. H. Ni, G. X. Zhao, P. Zhao, Y. M. Jiang, Y. D. Meng, X. K. Wang Applied Plasma Division, Institute of Plasma Physics, Chinese Academy of Sciences, Hefei, China 1P-159 Chemistry and New Applications of Plasmas Created in Conducting Liquids C. P. Kelsey1, A. Mashal2, L. Nemcova3, W. G. Graham1 1Centre for Plasma Physics,, Queens University of Belfast, Belfast, Northern Ireland, UK 2School of Chemistry and Chemical Engineering, Queens University of Belfast, Belfast, Northern Ireland, UK 3Faculty of Chemistry, Brno University of Technology, Brno, Czech Republic 1P-160 Fabriation and Characterization of SnS Films Deposited on Different Substrates by Modified Versition of PECVD L. Cheng, M. Liu, S. Wang, M. Wang School of Physics, Huazhong University of Science and Technology, Wuhan, China 1P-161 Stable Isotope Enrichment Using a Plasma Centrifuge M. Krishnan, B. L. Bures Alameda Applied Sciences Corporation, San Leandro, CA, USA 48 Technical Program Monday afternoon, July 9 Session 1P: Fast Z Pinches, X-ray Lasers (poster session ~ 1) Monday, July 9 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Christopher A Jennings, Sandia National Laboratories 1P-162 An Efficient Snow Plow Model to Deduce Plasma Focus Macroscale Parameters B. L. Bures, M. Krishnan Alameda Applied Sciences Corporation, San Leandro, CA, USA 1P-163 Intense High-Order Harmonics from Carbon Plasma for Intense Attosecond Pulse Generation Y. Pertot1, S. Chen2, S. D. Khan2, Z. Chang2,3, T. Ozaki1 1INRS-EMT, Varennes, Quebec, Canada 2Physics Department, Kansas State University, Manhattan, Kansas, USA 3Department of Physics & CREOL, University of Central Florida, Orlando, Florida, USA 1P-164 Correlation of Electron Density Distributions and Neutron Emission During Characteristic Phases of Plasma Column Evolution in Pf-1000 Device T. Chodukowski1, T. Pisarczyk1, M. Paduch1, A. Kasperczuk1, Z. Kalinowska1, R. Miklaszewski1, E. Zielinska1, M. Scholz1, P. Kubes2, K. Rezac2, D. Klir2 1Division of Laser Plasma, Institute of Plasma Physics and Laser Microfusion, Warsaw, Poland 2Czech Technical University, Prague, Czech Republic 1P-165 Influence of Krypton Gas Admixture on Plasma Focus Deuterium Fusion A. Talebitaher, S. V. Springham, P. M. E. Shutler, P. Lee, R. S. Rawat NSSE, NIE, NTU, Singapore, Singapore 1P-166 Non-Thermal Surface Modification of Solids Induced by Euv Laser Pulses O. Frolov1, K. Kolacek1, J. Schmidt1, J. Straus1, V. Prukner1, A. Choukourov2 1Pulse Plasma Systems Department, Institute of Plasma Physics Academy of Sciences CR, v.v.i., Prague, Czech Republic 2Department of Macromolecular Physics, Faculty of Mathematics and Physics, Charles University in Prague, Prague, Czech Republic 1P-167 A New Multichannel Gas Spark Switch Base on Surface Flashover Technology W. Tie School of Electrical Engineering, Xi’an Jiaotong University, Xi'an, China 1P-168 An Optimization Study of Multi-Material-Shell Gas Puff Z-Pinches as a Pulsed Neutron Source on the Sandia Z Facility Y. K. Chong1, A. L. Velikovich1, J. W. Thornhill1, J. Giuliani1, C. Coverdale2 1Naval Research Laboratory, Washington, DC, USA 2Sandia National Laboratories, Albuquerque, NM, USA 1P-169 Stagnation of a Gas Puff Z Pinch H. Strauss HRS Fusion, West Orange NJ, USA 1P-170 Metal Puff Z-Pinch Based on the Arc Discharge with High Current Density R. Baksht1, A. Rousskikh2, I. Rousskikh3, A. Zhigalin2, V. Oreshkin2 49 Technical Program Monday afternoon, July 9 1Tel Aviv University, Tel Aviv, Israel of High Current Electronics, Tomsk, Russia 3Inst of Petroleum Chemistry, Tomsk, Russia 2Inst 1P-171 Gas Puff Pre-Ionization and Density Characterization in COBRA Z-Pinches M. Evans, N. Qi, P. Gourdain, J. Greenly, B. Kusse, D. Hammer Cornell Laboratory of Plasma Studies, Ithaca, USA 1P-172 3 Dimensional MHD Modeling of the Implosion and Stagnation of Argon Gas Puffs C. A. Jennings1, B. Jones1, D. J. Ampleford1, C. A. Coverdale1, S. B. Hansen1, E. Waisman1, D. C. Lamppa1, J. P. Chittenden2, N. Niasse2, J. L. Giuliani3, J. W. Thornhill3 1Sandia National Laboratories, Albuquerque, USA 2Imperial College, London, London, United Kingdom 3Plasma Physics Division, NRL, Washington, USA 1P-173 Aluminum Wire Array Z-Pinches on the Z Generator D. J. Ampleford1, B. Jones1, C. A. Coverdale1, C. A. Jennings1, S. B. Hansen1, M. E. Cuneo1, J. P. Apruzese2, J. W. Thornhill2, N. D. Ouart2, Y. K. Chong2, R. W. Clard2, A. Dasgupta2, J. L. Giuliani2 1Sandia National Laboratories, Albuquerque, NM, USA 2Naval Research Laboratory, Washington DC, USA 1P-174 Diagnosing K- and L-Shell Spectra from Copper Wire Array Implosions on Refurbished Z R. W. Clark1, A. Dasgupta2, J. L. Giuliani2, N. Ouart3, B. M. Jones4, D. J. Ampleford4, C. A. Coverdale4, S. B. Hansen4 1Berkeley Research Assoc, Beltsville, MD, USA 2Plasma Physics Division, Naval Research Laboratory, Washington, DC, USA 3NRC/NRL Postdoc, Naval Research Laboratory, Washington, DC, USA 4Sandia National Laboratories, Albuquerque, NM, USA 1P-175 The Effect of Doubly Excited States on Emission Line Ratios and Absolute Powers Used in Spectroscopic Diagnotics N. D. Ouart1, J. P. Apruzese2, J. L. Giuliani3, A. Dasgupta3, R. W. Clark4 1NRC/NRL Postdoctoral Associate, Naval Research Laboratory, Washington, DC, USA 2L-3 Communications, Naval Research Laboratory, Washington, DC, USA 3Plasma Physics Division, Naval Research Laboratory, Washington, DC, USA 4Berkeley Research Associates, Naval Research Laboratory, Washington, DC, USA 1P-176 3D MHD Simulation of Quasispherical Wire Array Z Pinches O. Olkhovskaya, V. Gasilov, V. Novikov, A. Boldarev, S. Dyatchenko, G. Bagdasarov Keldysh Institute of Applied Mathematics RAS, Moscow, Russian Federation 1P-177 Effect of Inter-Electrodes gap and Capacitor Voltages on Euv Emission of Tin and Copper Vacuum Spark Discharges S. Saboohi Physics, Plasma Technology Research Center,University Malaya, Malaysia, Malaysia 50 Technical Program Monday afternoon, July 9 1P-178 Plastic Formers as a Z-Pinch Driven Radiative Shockwave Platform J. Skidmore, S. Bland, S. Lebedev, F. Suzuki-Vidal, G. Swadling, G. Hall, G. Burdiak, P. de Grouchy, A. Harvey-Thompson, M. Bocchi, J. Chittenden, E. Khoory, L. Pickworth, S. Stafford, L. Suttle Imperial College, London, UK Session 1P: High Energy Density Matter (poster session) Monday, July 9 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Gianluca Gregori, Oxford University, UK 1P-179 Interactions of Ion Beams with Dense Plasmas Using Hybrid Simulations Z. -H. Hu, Y. -H. Song, Y. -N. Wang Dalian University of Technology, Liaoning, China 1P-180 Collisional Effects on Relativistic Electron Beams Transportation in Warm Plasma W. -J. Ding1,2, B. Hao2, Z. -M. Sheng3, C. Ren4, W. S. Koh1 1Independent Investigatorship Department, Institute of High Performance Computing, A*STAR, Singapore, Singapore 2Optical Laboratory, Institute of Physics, CAS, Beijing, China 3Department of Physics, Shanghai Jiaotong University, Shanghai, China 4Department of Physics and Astronamy, University of Rochester, New York, USA 1P-181 Experimental Characteristics of Fast Aluminum Thin Films Explosion I. Ivanov, V. Belko, O. Emelyanov St.Petersburg State Polytechnical University, St.Petersburg, Russian Federation 1P-182 Megabar Cavitation Collapse M. C. Ramsey, R. W. Pitz Mechanical Engineering, Vanderbilt University, Nashville, TN, USA 1P-183 Experimental Interactions of Collimated Plasma Flows with Tesla-Order B-Field P. C. Schrafel, P. A. Gourdain, J. B. Greenly, B. R. Kusse Cornell University, Ithaca, NY, USA 1P-184 AC Conductivity of Non-Equilibrium Warm Dense Gold Y. Y. Tsui1, B. Holst2,3, Z. Chen1, S. Kirkwood4, V. Sametoguli1, M. Reid5, V. Recoules2, A. Ng6 1University of Alberta, Edmonton, Alberta, Canada 2CEA DAM, DIF, F-91297 Arpajon Cedex, France 3LULI, Ecole Polytechnique,CNRS, CEA, UPMC, 91128 Palaiseau, France 4University of Ottawa, Ottawa, Ontario, Canada 5University of Northern British Columbia, Prince George, British Columbia, Canada 6University of British Columbia, Vancouver, British Columbia, Canada 1P-185 Wide-Range Equations of State for Structural Materials at High Energy Densities K. V. Khishchenko Joint Institute for High Temperatures RAS, Moscow, Russian Federation 1P-186 Experimental Observation of Ultra-Slow Electron-Lattice Coupling in Highly Non-Equilibrium Graphite 51 Technical Program Monday afternoon, July 9 T. G. White1, B. J. B. Crowley1,2, P. Davis3, D. O. Gericke4, S. Glenzer3, J. Harris2, D. C. Hochhaus5, S. Le Pape3, T. Ma3, C. D. Murphy1, P. Neumayer5, L. K. Pattison2, S. Richardson2, J. Vorberger4, G. Gregori1 1Atomic and Laser Physics, Oxford Unviersity, Oxford, United Kingdom 2AWE, Aldermaston, United Kingdom 3Lawrence Livermore National Laboratory, Livermore, CA, USA 4Centre for Fusion, Space, and Astrophysics, University of Warwick, Warwick, United Kingdom 5Extreme Matter Institute, Darmstadt, Germany Session 2A: Space Plasmas (oral) Monday, July 9 15:30-17:45, Tinto Room (Level 0) Session Chair: Marian Lazar, Ruhr-University Bochum 15:30 2A-1 Weak Turbulence Theory and Wave-Wave Interaction: Three Wave Coupling in Space Plasmas F. A. Spanier1, R. O. Vainio2 1Lehrstuhl fürAstronomie, Universität Würzburg, Würzburg, Germany 2Department of Physics, Helsinki University, Helsinki, Finland 15:45 2A-2 VLF LH/Whistler Nonlinear Interactions in the Topside Ionosphere: Simulation Study V. Galinsky1, V. Shevchenko1, E. Mishin2, M. Starks2 1ECE, UCSD, La Jolla, CA, USA 2Space Vehicles Directorate/Kirtland AFB, AFRL, New Mexico, USA 16:00 2A-3 Investigation of Naturally Occurring and Radio Wave Induced Ionospheric Plasma Turbulence M. -C. Lee1, R. Pradipta2, J. A. Cohen2, M. P. Sulzer3, A. Uyar1, L. A. Rooker1, L. N. Whitehurst1, B. J. Watkins4, S. P. Kuo5, K. Hu1, B. See1 1Department of Electrical & Computer Engineering, Boston University, Boston, MA, USA 2Department of Nuclear Science and Engineering, Massachusetts Institute of Technology, Cambridge, MA, USA 3Arecibo Observatory, Arecibo Observatory, Arecibo, PR, USA 4Geophysical Institute, University of Alaska Fairbanks, Fairbanks, AK, USA 5Department of Electrical & Computer Engineering, New York University, Brooklyn, NY, USA 16:15 2A-4 (invited) Proton Temperature Anisotropy-Beta Relationship in Space Plasmas P. H. Yoon IPST, University of Maryland, College Park, College Park, MD, USA 16:45 2A-5 Temperature-Anisotropy Instability Thresholds in the Solar Wind M. Michno, R. Schlickeiser Institut fürTheoretische Physik, Lehrstuhl IV: Weltraum- und Astrophysik, Bochum, Germany 17:00 2A-6 Perpendicular Transport of Cosmic Rays in Turbulence H. Yan1, A. Lazarian2 1Kavli Institute of Astronomy & Astrophysics, Peking U, Beijing, China 2Dept of Astronomy, University Wisconsin, Madison, US 52 Technical Program Monday afternoon, July 9 17:15 2A-7 Diffusive Transport of Solar Energetic Particles in the Interplanetary Plasma S. Artmann, R. Schlickeiser Institut fuer Theoretische Physik, Lehrstuhl IV: Weltraum- und Astrophysik, Bochum, Germany 17:30 2A-8 Plasma Effects on Fast Pair Beams in Cosmic Voids R. Schlickeiser1, F. Miniati2, D. Ibscher1, A. Elyiv3,4 1Institute for Theoretical Physics IV, Ruhr-University, Bochum, Germany, Bochum, Germany 2Physics Department,, ETH-Zürich, Zürich, Switzerland 3Institut d'Astrophysique et de Geophysique, Universite de Liege, Liege, Belgium 4Academy of Sciences of Ukraine, Main Astronomical Observatory, Kyiv,, Ukraine Session 2B: Dusty plasmas I and Microwave Plasma Interaction (oral) Monday, July 9 15:30-17:45, Moorfoot Room (Level 0) Session Chairs: Dmitry Samsonov, The University of Liverpool Nicholas Braithwaite, The Open University, UK 15:30 2B-1 Modeling Tools for Plasmas in the Strongly-Coupled State P. H. Stoltz1, D. Meiser1, A. Christlieb2, B. Ong2, E. Hallman1, K. Beckwith1, J. Loverich1 1Tech-X Corporation, Boulder, CO, USA 2Department of Mathematics, Michigan State, East Lansing, MI, USA 15:45 2B-2 Apparent Surface Tension in Complex (Dusty) Plasmas M. Schwabe1,2, S. Zhdanov2, A. V. Ivlev2, H. M. Thomas2, G. E. Morfill2 1Department of Chemical and Biomolecular Engineering, University of California at Berkeley, Berkleey, CA, USA 2Max Planck Institute for Extraterrestrial Physics, Garching, Germany 16:00 2B-3 Numerical Investigation of Fine-Particle Gyrophase Drift M. Koepke1, J. Walker1, V. Demidov1, M. Zimmerman2, W. Farrell2, U. Kortshagen3 1West Virginia University, Morgantown, WV, USA 2NASA-GSFC, Greenbelt, MD, USA 3University of Minnesota, Minneapolis, MN, USA 16:15 2B-4 String Formation in 3D Particle Clusters in Complex Plasmas C. Raeth1, L. Woerner1, V. Nosenko1, S. Zhdanov1, J. Schablinski2, D. Block2, H. Thomas1, G. Morfill1 1Max Planck Institute for Extraterrestrial Physics, Garching, Germany 2IEAP, CAU Kiel, Kiel, Germany 16:30 2B-5 Electron Density Evolution of Post-Pulse High Power Microwave Plasma S. Beeson, A. Neuber Center for Pulsed Power and Power Electronics, Texas Tech Univeristy, Lubbock, Texas, USA 16:45 2B-6 Characterization of Breakdown Delay and Memory Effects in High Power Microwave Dielectric Window Discharges B. Kupczyk, X. Xiang, J. Scharer, J. Booske Electrical and Computer Engineering, University of Wisconsin - Madison, Madison, WI, USA 17:00 2B-7 A 2D Model for the Electromagnetic-Plasma Interaction in a Coaxial Surface Wave Discharges 53 Technical Program Monday afternoon, July 9 S. Rahimi, M. Jimenez_Diaz, J. van Dijk, J. J. A. M. van der Mullen Eindhoven University of Technology, Eindhoven, Netherlands 17:15 2B-8 Self-Consistent Time-Resolved Modeling of Surface-Wave Microwave Plasma I. P. Ganachev1,2, H. Sugai2 1Technology Headquarters, Shibaura Mechatronics Corporation, Yokohama, Japan 2Department of Electronics and Information Engineering, Chubu University, Kasugai, Aichi, Japan 17:30 2B-9 Cutoff Probe Diagnostic for the Precise Measurement of Electron Density S. J. You1, D. W. Kim2, K. H. You2, B. K. Na2, J. H. Kim1, Y. H. Shin1, H. Y. Chang2 1Vacuum, Kriss, Daejeon, South Korea 2Physics, Kaist, Daejeon, South Korea Session 2C: Radiation Physics and Plasma Material Interactions (oral) Monday, July 9 15:30-17:45, Fintry Auditorium (Level 3) Session Chair: Gianluca Gregori, Oxford University, UK 15:30 2C-1 Study of a Prototype of a New Compact Hohlraum Configuration at the 1.7 Ma UNR Zebra Generator V. L. Kantsyrev1, A. S. Safronova1, A. A. Esaulov1, I. Shrestha1, G. C. Osborne1, V. V. Shlyaptseva1, M. E. Weller1, H. A. Zunino1, A. S. Chuvatin2, L. I. Rudakov3, A. L. Velikovich4, B. Jones5, R. A. Vesey5 1University of Nevada, Reno, NV, USA 2Ecole Polytechnique, Palaiseau, France 3Icarus Inc., Bethesda, MD, USA 4Naval Research Laboratory, Washington DC, USA 5Sandia National Laboratories, Albuquerque, USA 15:45 2C-2 A Multi-Purpose Pseudo Nlte Solver for Large Scale Multi-Dimensional Plasma Simulations N. P. L. Niasse, J. P. Chittenden Plasma Physics, Imperial College, London, United Kingdom 16:00 2C-3 Improved Non-Local Radiation Coupling for Mach2-TCRE J. W. Thornhill1, J. L. Giuliani1, Y. K. Chong1, A. Dasgupta1, J. P. Apruzese2 1Plasma Physics Division, Naval Research Laboratory, Washington DC, USA 2L3 Communications, Chantilly, VA, USA 16:15 2C-4 (invited) High Energy Density Pinch Plasma: A Unique Non-Conventional Tool for Plasma Nanotechnology R. S. Rawat Natural Sciences and Science Education, National Institute of Education, Nanyang Technological University, Singapore, Singapore 16:45 2C-5 Atmospheric Pressure Plasma Activation of Plastics and Composites for Improved Adhesion R. F. Hicks, T. S. Williams, H. Yu Chemical and Biomolecular Engineering, University of California, Los Angeles, Los Angeles, CA, USA 54 Technical Program Monday afternoon, July 9 17:00 2C-6 Experimental Simulation of Beryllium Damage under Intense Transient Plasma Loads I. B. Kupriyanov1, E. V. Basaleev1, G. N. Nikolaev1, L. A. Kurbatova1, L. N. Podkovyrov2, A. D. Muzichenko2, A. M. Zhitlukhin2, L. N. Khimchenko3 1A.A. Bochvar Research Institute of Inorganic Materials, Moscow, Russian Federation 2TRINITI, Troitsk, Moscow reg., Russian Federation 3Project Centre of ITER, Moscow, Russian Federation 17:15 2C-7 Platinum/Carbon Intergated Electrodes for Direct Methanol Fuel Cells C. Zhang Institute of Plasma Physics, Chinese Academy of Sciences, Hefei, Anhui, China 17:30 2C-8 Analysis of Atmospheric Pressure Plasma Torch and the Effects of Multiple Gas Compositions on Plasma Chemistry and Its Interaction with High Density Polyethylene A. J. McWilliams1, S. J. Hudak1, S. C. Shannon2, J. J. Cuomo1 1Materials Science & Engineering, North Carolina State University, Raleigh, NC, USA 2Nuclear Engineering, North Carolina State University, Raleigh, NC, USA Session 2D: Laser Produced Plasmas (oral) Monday, July 9 15:30-17:30, Sidlaw Auditorium (Level 3) Session Chair: Paul McKenna, University Strathclyde, UK 15:30 2D-1 (invited) Experimental and Simulated Coupling and Spectra of Hot Electrons into Cone-Wire Targets D. P. Higginson1, A. Link1, P. K. Patel1, H. Sawada2, S. Wilks1, T. Bartal2, S. Baton3, C. D. Chen1, K. Flippo4, R. R. Freeman5, S. Gaillard4, E. Giraldez6, L. C. Jarrott2, A. Kemp1, G. E. Kemp1, M. Key1, A. Krygier5, T. Ma1, H. McLean1, P. A. Norreys7, F. Perez1, Y. Ping1, H. -P. Schlenvoigt3, R. B. Stephens6, L. D. Van Woerkom5, T. Yabuuchi2, F. N. Beg2 1Lawrence Livermore National Lab, Livermore, CA, USA 2University of California, San Diego, La Jolla, CA, USA 3Laboratoire pour l'Utilisation des Lasers Intenses, Palaiseau, France 4Los Alamos National Lab, Los Alamos, NM, USA 5The Ohio State University, Columbus, OH, USA 6General Atomics, San Diego, CA, USA 7STFC Rutherford Appleton Laboratory, Chilton, UK 16:00 2D-2 Laser Produced Plasma as a New, Compact Neutron Source for Dynamic Materials Research M. Roth Institute for Nuclear Physics, Technische Universitaet Darmstadt, Darmstadt, Germany 16:15 2D-3 Time and Space Resolved Plasma Species Dynamics of a Laser Carbon Plasma in Low Pressure Neutral Background Gas M. Favre, H. M. Ruiz, F. Guzman, L. S. Caballero, H. Bhuyan, H. Chuaqui, E. S. Wyndham Physics, Pontificia Universidad Católica de Chile, Santiago, Chile 16:30 2D-4 Anomalous Laser Absorption in Underdense Solid Targets by Synchrotron Emission C. S. Brady1, T. D. Arber1, C. P. Ridgers2, A. R. Bell2 55 Technical Program Monday afternoon, July 9 1Department 2Clarendon of Physics, University of Warwick, Coventry, United Kingdom Laboratory, University of Oxford, Oxford, United Kingdom 16:45 2D-5 Highly Efficient Acceleration of Dense Plasma in the LICPA Accelerator J. Badziak1, T. Pisarczyk1, T. Chodukowski1, S. Jablonski1, Z. Kalinowska1, P. Parys1, P. Raczka1, M. Rosinski1, S. Borodziuk1, A. Kasperczuk1, J. Wolowski1, E. Krousky2, M. Pfeifer2, J. Skala2, J. Ullschmied3, R. Liska4, M. Kucharik4, K. Tomaszewski5, P. Pisarczyk6, Y. -J. Rhee7 1Division of Laser Plasma, Institute of Plasma Physics and Laser Microfusion, Warsaw, Poland 2Institute of Physics AS CR, Prague, Czech Republic 3Institue of Plasma Physics AS CR, Prague, Czech Republic 4FNSPE, Czech Technical University, Prague, Czech Republic 5ACS Ltd., Advanced Diagnostics Laboratory, Warsaw, Poland 6ICS, Warsaw University of Technology, Warsaw, Poland 7KAERI, Daejeon, Korea 17:00 2D-6 Proton Diagnostic Performance in Laser Driven Hydrodynamics Experiments C. A. Di Stefano1, C. C. Kuranz1, R. P. Drake1, M. J. Grosskopf1, C. M. Krauland1, D. C. Marion1, S. R. Klein1, B. Fryxell1, P. M. Nilson2, T. Plewa3 1University of Michigan, Ann Arbor, MI, USA 2University of Rochester, Rochester, NY, USA 3Florida State University, Tallahassee, FL, USA 17:15 2D-7 Mass Limited Targets for Relativistic Laser Plasma Interactions P. B. Hilz1, T. Ostermayr1, C. Kreuzer1, J. Schreiber1, J. Bin2, K. Allinger2, D. Kiefer2, W. Ma2, H. Wang2, S. Steinke3, J. Bränzel3, F. Abicht3, M. Schnürer3, W. Sandner3 1Ludwig Maximilians Universität , München, Germany 2Max Plank Institut of Quantum Optics, München, Germany 3Max Born Institut, Berlin, Germany Session 2E: Plasma Medicine I (oral) Monday, July 9 15:30-17:45, Pentland Auditorium (Level 3) Session Chair: Mounir Laroussi, Old Dominion University 15:30 2E-1 (invited) Effifacy of Cold Plasma in Cancer Therapy M. Keidar1, O. Volotskova1, A. Shashurin1, M. A. Stepp1, R. Guerro-Preston2, B. Trink2, R. Walk3, P. Srinivasan3, A. Sandler3 1George Washington University, Washington, USA 2John Hopkins University, Baltimore, USA 3Childrens National Medical Center, Washington, USA 16:00 2E-2 Inactivate Adenovirus by Using a Room Temperature Plasma Needle X. Lu, Z. Xiong State Key Laboratory of Advanced Electromagnetic Engineering and Technology, HUST, WuHan, China 16:15 2E-3 Effects of Atmospheric Pressure Plasma on Microorganisms and Human Cells W. Choe1, J. H. Shin2, C. Jo3, B. Gweon1, D. B. Kim1, H. Jung1, S. Park1, S. Y. Moon1, M. Kim2, D. Kim2, H. Kim2, H. J. Lee3 56 Technical Program Monday afternoon, July 9 1Department of Physics, Korea Advanced Institute of Science and Technology, Daejeon, South Korea 2Department of Mechanical Engineering, Korea Advanced Institute of Science and Technology, Daejeon, South Korea 3Department of Animal Science and Biotechnology, Chungnam National University, Daejeon, South Korea 16:30 2E-4 Non Thermal Microplasma Jet Array for Wound Healing C. -H. Park1,2, J. -M. Lee2, H. -W. Joo2, O. -J. Lee2, J. -H. Kim2, J. Cho3, P. P. Sun3, S. -J. Park3, J. G. Eden3 1Department of Otorhinolaryngology-Head & Neck Surgery, College of Medicine, Hallym Medical Center, Chuncheon, South Korea 2Nano Bio Regenerative Medicine Institute, Hallym University, Chuncheon, South Korea 3Department of Electrical and Computer Engineering, University of Illinois, Urbana, USA 16:45 2E-5 Inactivation Efficiencies of Reactive Oxygen Species on Inactivation of Penicilium Degitatum Spores by Atmospheric-Pressure O2/Ar Plasma H. Hashizumi1, T. Ohta1, M. Ito1, F. Jia2, K. Takeda2, K. Ishikawa2, M. Hori2 1Fucurty of Science and Technology, Meijo University, Nagoya, Japan 2Graduate School of Engineering, Nagoya University, Nagoya, Japan 17:00 2E-6 A Comparison of Different Cold Atmospheric Pressure Plasma Jets for Biomedical Applications: Gas Temperatures, Morphology, Power Dissipation and Biological Activity S. Hofmann1, C. A. J. van Gils1, S. Iseni1,2,3, P. J. Bruggeman1 1Elementary Processes in Gas Discharges, Eindhoven University of Technology, Eindhoven, Netherlands 2Centre for Innovation Competence plasmatis, Greifswald, Germany 3Leibniz Institute for Plasma Science and Technology (INP), Greifswald, Germany 17:15 2E-7 Effects of Cold Atmospheric Plasmas on Adenoviruses in Solution J. L. Zimmermann1, T. Shimizu1, G. E. Morfill1, V. Boxhammer1, J. Schlegel2, K. Dumler3, A. Wolf3, B. Gaensbacher3, M. Anton3 1Max-Planck Institute for Extraterrestrial Physics, Garching, Germany 2Department of Neuropathology, Technical University Munich, Munich, Germany 3Institute for Experimental Oncology, Technical University Munich, Munich, Germany 17:30 2E-8 Non-Thermal Oxygen-Rich Helium Plasmas using Theta Shaped Tubing for Evaluation of Plasmid DNA Strand Breaks J. Y. Kim1,2, D. -H. Lee3, J. Ballato2,4, W. Cao3, S. -O. Kim1,2 1Holcombe Department of Electrical and Computer Engineering, Clemson University, Clemson, SC, USA 2Center for Optical Materials Science and Engineering Technologies (COMSET), Clemson University, Clemson, SC, USA 3Department of Genetics and Biochemistry, Clemson University, Clemson, SC, USA 4School of Material Science and Engineering, Clemson University, Clemson, SC, USA 57 Technical Program Tuesday morning, July 10 Session PL3: Plenary -- PSAC Award Winner Tuesday, July 10 08:00-09:00, Pentland Suite (Level 3) Session Chair: Brendan Godfrey, University of Maryland 8:00 PL3-1 Warm Dense Matter: The Missing Link Between Condensed Matter & Plasma A. Ng University of British Columbia, Vancouver, Canada Session 3A: Dusty plasmas II (oral) Tuesday, July 10 09:30-12:00, Tinto Room (Level 0) Session Chairs: Dmitry Samsonov, The University of Liverpool Celine Durniak, The University of Liverpool 9:30 3A-1 (invited) On the Use of Microscopic Test Particles for Non-Conventional Plasma Sheath Diagnostics V. Schneider, T. Trottenberg, H. Kersten IEAP, University Kiel, Germany, Kiel, Germany 10:00 3A-2 Strongly Coupled Coulomb Dust Systems: Ordering and Transport Phenomena in Ground and Microgravity Experiments O. F. Petrov1,2, V. E. Fortov1,2 1Joint Institute for High Temperatures RAS, Moscow, Russian Federation 2Moscow Institute of Physics and Technology, Dolgoprudny, Russian Federation 10:15 3A-3 The PK-4 Project: Complex Plasma Experiments in a DC Discharge M. H. Thoma Max-Planck-Institute for Extraterrestrial Physics, Garching, Germany 10:30 3A-4 Collective Phenomena in Dusty Plasma T. W. Hyde, J. Kong, K. Qiao, M. Chen, B. Harris, V. Zhang, A. Douglass, J. Carmona-Reyes, L. Matthews CASPER, Baylor University, Waco, Texas, USA 10:45 3A-5 Ionization Enhanced Ion Collection by a Small Floating Grain in Plasmas S. Khrapak Max-Planck-Institut fuer Extraterrestrische Physik, Garching, Germany 11:00 3A-6 Self-Consistent Numerical Simulations of RF Dusty Plasma Afterglows, With and Without Plasma Pulsing S. L. Girshick, P. Agarwal Mechanical Engineering, University of Minnesota, Minneapolis, MN, USA 11:15 3A-7 Expansion of Complex Plasma and Dust Particle Charge T. Antonova1, C. -R. Du1, B. M. Annaratone1, A. Ivlev1, L. Hou1, R. Kompaneets2, H. M. Thomas1, G. E. Morfill1 1Max Planck Institute for Extraterrestrial Physics, Garching, Germany 2School of Physics, The University of Sydney, Sydney, Australia 11:30 3A-8 Impacts of Plasma Fluctuation on Nano-Particle Growth in Reactive Plasmas M. Shiratani Kyushu University, Fukuoka, Japan 58 Technical Program Tuesday morning, July 10 11:45 3A-9 PlasmaLab - Next Generation Plasma Chambers for the International Space Station C. A. Knapek, U. Konopka Max Planck Institute for Extraterrestrial Physics, Garching, Germany Session 3B: Intense Beam Microwave Generation, Codes and Modeling (oral) Tuesday, July 10 09:30-12:00, Moorfoot Room (Level 0) Session Chairs: Don Shiffler, AFRL Xiaodong Chen, Queen Mary University of London Claudio Paoloni, University of Rome Tor Vergata, Italy 09:30 3B-1 (invited) Generation, Amplification and Nonlinear Self-Compression of Powerful Microwave Superradiance Pulses N. S. Ginzburg1, A. W. Cross2, A. D. R. Phelps2, M. I. Yalandin3, V. V. Rostov4 1Russian Academy of Sciences, Institute of Applied Physics,, N.Novgorod, Russian Federation 2Department of Physics, SUPA, University of Strathclyde, Glasgow, United Kingdom 3Russian Academy of Sciences, Institute of Electrophysics, Ekaterinburg, Russian Federation 4Russian Academy of Sciences, Institute of High Current Electronics, Tomsk, Russian Federation 10:00 3B-2 Recent Advances in Relativistic A6 Magnetron Research - Improvements in Start-up and Efficiency E. Schamiloglu, M. Fuks, S. Prasad, C. Leach, C. Mendonca, D. Galbreath Electrical and Computer Engineering, University of New Mexico, Albuquerque, NM, USA 10:15 3B-3 Generation of Terahertz Electromagnetic Radiation in a Beam-Driven Turbulent Plasma A. V. Arzhannikov1, I. A. Kotelnikov2, I. V. Timofeev2, M. K. A. Thumm1 1Physics Dep./ATIC Div., Novosibirsk State University, Novosibirsk, Russian Federation 2Plasma Physics Dep., Budker Institute of Nuclear Physics, Novosibirsk, Russian Federation 10:30 3B-4 High Power Single Pulse THz Transmitters A. S. Podgorski ASR Technologies Inc., Ottawa, Canada 10:45 3B-5 Predictive, Optimized Numerical Simulation of Microwave Generation in Complex Geometries with Real Materials R. E. Peterkin, T. P. Fleming, D. M. French, P. D. Gensheimer, A. D. Greenwood, B. W. Hoff, D. R. Karrels, M. Lambrecht, N. P. Lockwood, P. J. Mardahl, W. W. Tang Directed Energy Directorate, Air Force Research Laboratory, Albuquerque, NM, USA 11:00 3B-6 Multi-Frequency Stability Analysis of Coupled Cavity TWTs Using TESLA-CC A. N. Vlasov1, I. A. Chernyavskiy1, B. Levush1, T. M. Antonsen, Jr.2 1Naval Research Laboratory, Washington, DC, USA 2Science Applications International Corporation, McLEan, VA, USA 11:15 3B-7 GPU-Accelerated Large-Signal Device Simulation Using the 3D Particle-inCell Code 'Neptune' S. J. Cooke1, I. A. Chernyavskiy1, G. M. Stanchev1, B. Levush1, T. M. Antonsen2 1Vacuum Electronics Branch, Naval Research Laboratory, Washington, DC, USA 2Science Applications International Corporation, McLean, VA, USA 59 Technical Program Tuesday morning, July 10 11:30 3B-8 Numerical Modelling of Plasma for Flow Control in Aerospace Applications K. Kourtzanidis1,2,3, F. Rogier1, J. P. Boeuf2,4 1DTIM/M2SN, ONERA, Toulouse, France 2Laboratoire Plasma et Conversion d'Energie (LAPLACE), UPS, University of Toulouse, Toulouse, France 3ISAE, Toulouse, France 4LAPLACE, CNRS, Toulouse, France 11:45 3B-9 A Plasma-Chemical Zero-Dimensional Model for Non-Thermal Atmospheric Pressure Argon Plasma Jet L. Taghizadeh1,2, C. Leys1, G. Morfill2 1Applied Physics, Ghent University, Ghent, Belgium 2Max-Planck Institute for Extraterrestrial Physics, Munich, Germany Session 3C: Fast Z Pinches, X-ray Lasers I (oral) Tuesday, July 10 09:30-12:00, Fintry Auditorium (Level 3) Session Chair: Adam J Harvey-Thompson, Sandia National Laboratories 9:30 3C-1 (invited) End-on Laser Interferometry of Wire Array Z-Pinch Implosions on the MAGPIE Generator G. F. Swadling, S. Lebedev, J. Chittenden, S. Bland, G. Hall, F. Suzuki-Vidal, N. Niasse, G. Burdiak, L. Pickworth, E. Koorey, L. Suttle, J. Skidmore Plasma Physics Group, Imperial College London, London, United Kingdom 10:00 3C-2 Spectroscopy of a Nitrogen Capillary Discharge Plasma Aimed at a Recombination Pumpted X-Ray Laser I. Gissis, A. Rikanati, I. Be'ery, A. Fisher, E. Behar Department of Physics, Technion - Institute of Technology, Haifa, Israel 10:15 3C-3 X-Ray Lasers Pumped with One Long and Two Short Pulses D. Ursescu1, R. A. Banici1, G. V. Cojocaru1, R. Dabu1, H. Stiel2 1Lasers, National Institute for Lasers, Plasma and Radiation Physics, Magurele, Ilfov, Romania 2Max Born Institut fürNichtlineare Optik und Kurzzeitspektroskopie im Forschungsverbund Berlin e.V., Berlin, Germany 10:30 3C-4 Investigation of the Interaction Between a Supersonic, Radiatively Cooled, Plasma Jet with Metallic Foil and Foam Targets L. A. Pickworth1, S. N. Bland1, S. Lebedev1, G. Hall1, F. Suzuki-Vidal1, G. Swadling1, M. Bennett1, G. Burdiak1, P. de Grouchy1, E. Khoory1, J. Skidmore1, L. Suttle1, J. Chittenden1, M. Bocchi1, N. Niasse1, D. Mariscal2, S. C. Bott2, F. N. Beg2, A. Frank3 1Plasma Physics, Imperial College London, London, United Kingdom 2University of San Diego, La Jolla, CA, USA 3Department of Physics and Astronomy, University of Rochester, Rochester, NY, USA 10:45 3C-5 Microsecond Conical Wire Array Experiments as a Source of Plasma Jets Relevant to Laboratory Astrophysics Experiments F. Zucchini1, D. Plouhinec1, J. Grunenwald1, P. Maury1, D. Sol1, P. Combes1, S. Ritter1, A. Loyen1, A. Morell1, D. A. Hammer2 1DAM/GRAMAT, CEA, Gramat, France 2Laboratory of Plasma Studies, Cornell University, Ithaca, NY, USA 60 Technical Program Tuesday morning, July 10 11:00 3C-6 Snowplow Calculations for Ne Puff Z-Pinch Experiments E. M. Waisman1, C. W. Nakhleh1, M. E. Cuneo1, E. Kroupp2, D. Osin2, Y. Maron2 1Pulsed Power Science Center, Sandia National Laboratories, Albuquerque, NM, USA 2Weizmann Institute of Science, Rehovot, Israel 11:15 3C-7 Simulation of Synthetic Spectra of Bright Spots for Ar and Kr Gas Puff on ZR A. Dasgupta1, R. W. Clark2, J. W. Thornhill1, N. D. Ouart1, J. P. Apruzese1, J. L. Giuliani1, B. M. Jones3, D. J. Ampleford3 1Plasma Physics, NRL, Washington, DC, USA 2Berkeley Scholars, Springfiled, VA, USA 3SNL, Albuquerque, NM, USA 11:30 3C-8 Comparative Properties of Copper Wire Array Implosions Driven by the PreRefurbished and Post-Refurbished Z Generator J. P. Apruzese1, J. W. Thornhill1, J. L. Giuliani1, C. A. Coverdale2, B. Jones2, D. J. Ampleford2 1Plasma Physics Division, Naval Research Laboratory, Washington DC, USA 2Sandia National Laboratories, Albuquerque NM, USA 11:45 3C-9 K-Shell Radiation Yields on a 60 Ma Z-Pinch Generator J. L. Giuliani1, J. W. Thornhill1, A. L. Velikovich1, R. W. Clark2, B. Jones3, D. J. Ampleford3, M. E. Cuneo3, W. A. Stygar3, C. A. Coverdale3 1Plasma Physics Division, Naval Research Laboratory, Washington, DC, USA 2Berkeley Research Associates, Beltsville, MD, USA 3Sandia National Laboratories, Albuquerque, NM, USA Session 3D: Nonequilibrium Plasma Applications I (oral) Tuesday, July 10 09:30-12:00, Sidlaw Auditorium (Level 3) Session Chair: Vincent Puech, University Paris-Sud 11 9:30 3D-1 (invited) Measurement, Modelling, and Controle of the Reactive Species Composition in the Effluent of an Argon Plasma Jet S. Reuter1, J. Winter1, M. U. Hammer1, K. Masur1, K. Wende1, H. Tresp1, A. Schmidt-Bleker1, M. Duennbier1, M. HAnsch1, T. von Woedtke2, K. -D. Weltmann2 1INP Greifswald e.V / ZIK Plasmatis, Greifswald, Germany 2INP Greifswald e.V, Greifswald, Germany 10:00 3D-2 Atmospheric Plasma Brush Driven by Sub-Microsecond Voltage Pulses X. Lu, S. Wu State Key Laboratory of Advanced Electromagnetic Engineering and Technology, HUST, WuHan, China 10:15 3D-3 Influence of Multiple Electrode Configurations on Atmospheric Pressure Microplasma Jet Arrays in Flexible Polymer P. P. Sun, J. H. Cho, S. -J. Park, J. G. Eden Department of Electrical and Computer Engineering, University of Illinois, Urbana, IL, USA 10:30 3D-4 Electric Potential Measurement of the Plasma Plume in Atmospheric-Plasma Jet H. Kang, J. Kim, J. Kim, H. -K. Yu, J. H. Koo, E. -H. Choi, H. S. Uhm, G. Cho Department of Electrophysics, Kwangwoon University, Seoul, South Korea 61 Technical Program Tuesday morning, July 10 10:45 3D-5 Pulsed Atmospheric Pressure Plasma Streams: Characterization and Role of Critical Experimental Parameters E. Robert1, V. Saron1, D. Ries1, S. Dozias1, J. -M. Pouvesle1, Z. Xiong2, M. J. Kushner2 1GREMI, Orleans University/CNRS, Orleans, France 2Electrical Engin. and Computer Science Department, University of Michigan, Ann Arbor, MI, USA 11:00 3D-6 The Manipulation of Atmospheric Pressure Dielectric Barrier Plasma Jets P. Olszewski, J. L. Walsh Department of Electrical Engineering and Electronics, University of Liverpool, Liverpool, United Kingdom 11:15 3D-7 Experimental and Numerical Investigation on the Interaction Between Ar Flow Channel and Ar Plasma Jet at Atmospheric Pressure X. Shao, G. Zhang, Z. Chang State Key Laboratory of Electrical Insulation and Power Equipment, Xi’an Jiaotong University, Xi'an, China 11:30 3D-8 Particle-in-Cell Simulation of Aluminum/Aluminum Oxide Microplasma Devices A. Likhanskii1, S. Macheret2 1Tech-X Corporation, Boulder, CO, USA 2Lockheed Martin Aeronautics Company, Palmdale, CA, USA 11:45 3D-9 The Effect of Power on Duty Cycle on the Pulsed RF Discharge and the Pulsed RF Plasma Jet Array D. Liu Huazhong University of Science and Technology, Wuhan, China Session 3E: Plasma Medicine II (oral) Tuesday, July 10 09:30-12:00, Pentland Auditorium (Level 3) Session Chair: Mounir Laroussi, Old Dominion University 9:30 3E-1 (invited) The Flowing Afterglow of the N2-O2 Discharge as a Means of Decontaminating/Sterilising Through UV Irradiation: Summary of the Research Achieved and Recent Results M. Moisan Physics, Universite de Montreal, Montreal, Quebec, Canada 10:00 3E-2 Bacteria Inactivation in a Thin Layer of Aqueous Medium by Surface MicroDischarge Y. Li, J. Zimmermann, G. Morfill Max Planck Institute for Extraterrestrial Physics, Garching, Germany 10:15 3E-3 The Bactericidal Effect of a Positive and Negative Corona on Gram-Positive and Gram-Negative Bacteria E. V. Sysolyatina1, M. A. Yurova1, A. Y. Mukhachev1, M. A. Danilova1, M. E. Grushin2, A. V. Petryakov2, N. I. Trushkin2, S. A. Ermolaeva1, Y. S. Akishev2 1Gamaleya Research Institute of Epidemiology and Microbiology, Moscow, Russian Federation 22State Research Center of Russian Federation TRINITI, Troitsk, Moscow reg., Russian Federation 10:30 3E-4 From Research to Application: Introducing a Plasma Sterilization Prototype 62 Technical Program Tuesday morning, July 10 K. Stapelmann1, N. Bibinov1, P. Awakowicz1, J. -W. Lackmann2, J. Bandow2 1Institute for Electrical Engineering and Plasma Technology, Ruhr-University Bochum, Bochum, Germany 2Microbial Biology, Ruhr-University Bochum, Bochum, Germany 10:45 3E-5 The Reduced pH Method with Indirect Plasma for Safe and Effective Disinfection in Dentistry and Surgery K. Kitano1, S. Ikawa2, A. Tani3, H. Yamazaki4, T. Ohshima4, K. Kaneko5, M. Ito5, T. Kuwata5, A. Yagishita5 1Graduate School of Engineering, Osaka University, Suita, Osaka, Japan 2Technology Research Institute of Osaka Prefecture, Izumi, Oaaka, Japan 3Graduate School of Science, Osaka University, Toyonaka, Osaka, Japan 4Graduate School of Dental Medicine, Tsurumi University, Yokohama, Kanagawa, Japan 5National Cancer Center Hospital East, Kashiwa, Chiba, Japan 11:00 3E-6 Antimicrobial Activity of Plasma-Generated Vuv Radiation and Its Complete Absorption by Thin Liquid Layers T. von Woedtke, H. Lange, K. -D. Weltmann Leibniz Institute for Plasma Science and Technology (INP Greifswald), Greifswald, Germany 11:15 3E-7 Evidence of Mass Transfer Limitation in the Inactivation of Pantoea Agglomerans Biofilms with Atmospheric Cold Gas Plasma P. Prokopovich1,2, S. Perni3, G. Shama4, X. T. Deng5, M. G. Kong5 1School of Pharmacy and Pharmaceutical Sciences, Cardiff University, Cardiff, United Kingdom 2School of Engineering, Cardiff University, Cardiff, United Kingdom 3School of Chemical Engineering, University of Birmingham, Birmingham, United Kingdom 4Chemical Engineering, Loughborough University, Loughborough, United Kingdom 5School of Electronic, Electrical and System Engineering, Loughborough University, Loughborough, United Kingdom 11:30 3E-8 Cold Plasma Treatment of Endodontic Biofilms in Root Canals Ex Vivo C. Schaudinn1, P. Webster1, D. E. Jaramillo2, M. Freire3, A. Nguyen3, P. P. Sedghizadeh3, J. W. Costerton4, C. Jiang5 1House Research Institute, Los Angeles, CA, USA 2School of Dentistry, Loma Linda University, Loma Linda, CA, USA 3Ostrow School of Dentistry, University of Southern California, Los Angeles, CA, USA 4Allegheny-Singer Research Institute, Pittsburgh, PA, USA 5Viterbi School of Engineering, University of Southern California, Los Angeles, CA, USA 11:45 3E-9 Assessment of the Roles of Various Inactivation Agents in an Argon-Based Direct Current Atmospheric Pressure Cold Plasma Jet Q. Zhang1, P. Sun2, H. Feng2, R. Wang1, Y. Liang2, W. Zhu3, K. H. Becker4, J. Zhang1, J. Fang1 1Academy for Advanced Interdisciplinary Studies, Peking University, Beijing, China 2College of Engineering, Peking University, Beijing, China 3Department of Applied Science and Technology, Saint Peter's College, New Jersey, USA 4Department of Applied Physics, Polytechnic Institute of New York University, New York, USA 63 Technical Program Tuesday afternoon, July 10 Session PL4: Plenary 4 Tuesday, July 10 13:00-14:00, Pentland Suite (Level 3) Session Chair: Adrian Cross, Strathclyde University 13:00 PL4-1 ADVANCES IN GYRO-AMPLIFIER RESEARCH A. D. R. Phelps Department of Physics, SUPA, University of Strathclyde, Glasgow, United Kingdom Session 2P: Basic Phenomena (poster session ~ 2) Tuesday, July 10 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Siegbert Kuhn, University Innsbruck, Austria 2P-1 Investigation of Monochromatization-Effect at Molecular/Atomic Level in Electronegative - Electropositive Gas Mixtures Plasma L. C. Ciobotaru Low Temperature Plasma, National Institute of Lasers, Plasma and Radiation Physics, Magurele, Romania 2P-2 Solar Powered Microwave Transmission and Interactions with Atmopsheric Plasmas L. Whitehurst, M. -C. Lee Department of Electrical & Computer Engineering, Boston University, Boston, MA, USA 2P-3 Beat Wave Generation Experiment for Study of Vlf Whistler Wave Interactions with Ionospheric Plasmas and Radiation Belts L. Rooker, M. -C. Lee Department of Electrical & Computer Engineering, Boston University, Boston, MA, USA 2P-4 Surface Polaritons in a Wave Guiding Structure Consisting of Double-Negative and Single-Negative Metamaterials Separated by a Dielectric Slab Y. O. Tyshetskiy, S. V. Vladimirov, R. Kompaneets School of Physics, University of Sydney, Sydney, NSW, Australia 2P-5 Potential Surface Waves on a Semi-Bounded Degenerate Electron Plasma: Dispersion and Damping Y. O. Tyshetskiy, D. J. Williamson, R. Kompaneets, S. V. Vladimirov School of Physics, University of Sydney, Sydney, NSW, Australia 2P-6 Non-Exponential Temporal Attenuation of Surface Potential Perturbations in a Semi-Bounded Degenerate Electron Plasma Y. O. Tyshetskiy, R. Kompaneets, S. V. Vladimirov School of Physics, University of Sydney, Sydney, NSW, Australia 2P-7 Influence of Electron-Ion Collisions on the Buneman Instability E. V. Rostomyan Institute of Radiophysics & Electronics National Ac Sci of Armenia, Ashtarack, Armenia 2P-8 Ion Streaming Instability in a Plasma Sheath with Multiple Ion Species Z. Zhang, X. Wang School of Physics, Peking University, Beijing, China 64 Technical Program Tuesday afternoon, July 10 2P-9 Numerical and Experimental Investigation of Fusion Relevant Two-Stream Instability M. King1, S. L. McConville1, D. C. Speirs1, R. Bryson1, K. M. Gillespie1, A. D. R. Phelps1, A. W. Cross1, C. G. Whyte1, K. Ronald1, R. A. Cairns2, I. Vorgul2, R. Bingham3, R. M. G. M. Trines3 1SUPA, Deparment of Physics, University of Strathclyde, Glasgow, United Kingdom 2School of Mathematics and Statistics, University of St Andrews, St Andrews, Fife, United Kingdom 3STFC Rutherford Appleton Laboratory, Chilton, Oxforshire, United Kingdom 2P-10 Amplification of Waves at Fundamental Frequencies in an Inhomogeneous Plasma P. Deka Department of Mathematics, Dibrugarh University, Dibrugarh, India 2P-11 Propagation of Ion-Acousitic Solitary Waves in Inhomogeneous Magnetized Plasma L. B. Gogoi1, P. Deka2 1Mathematics Department, Duliajan College, Duliajan, Assam, India 2Mathematics Department, Dibrugarh University, Dibrugarh, Assam, India 2P-12 Nonlinear Effect of Trapping in a Degenerate Plasma in the Presence of a Quantizing Magnetic Field H. A. Shah1, J. Iqbal1, N. Tsintsadze1, W. Masood2 1Department of Physics, GC University, Lahore, Pakistan 2Theoretical Plasma Physics Division, Pakistan Atomic Energy Commission, Islamabad, Pakistan 2P-13 Study of Boltzmann Relation in Magnetized Collisionless Plasma with Finite Length Scale Ratios J. Kovačič1,2, T. Gyergyek1,2, M. Čerček1 1Reactor Physics Department, Jozef Stefan Institute, Ljubljana, Slovenia 2Faculty of Electrical Engineering, University of Ljubljana, Ljubljana, Slovenia 2P-14 Polytropic-Coefficient Function (PCF) vs. Polytropic-Exponent Function (PEF) S. Kuhn1, D. D. Tskhakaya (sr)1,2, N. Jelić1, L. Kos3, J. Duhovnik3 1Inst. Theor. Physics, University Innsbruck, Austria, Innsbruck, Austria 2Andronikashvili Inst. Phys., Georgian Acad. Sci., Georgia, Tbilisi, Georgia 3LECAD Laboratory, University Ljubljana, Slovenia, Ljubljana, Slovenia 2P-15 A Semi-Analytic Solution of the Plane Discharge with Warm Ions N. Jelic1, L. Kos2, J. Duhovnik2 1Association EURATOM-ÖAW, Institute for Theoretical Physics, University of Innsbruck, Innsbruck, Austria 2Faculty of Mech. Eng., University of Ljubljana, Ljubljana, Slovenia 2P-16 Numerical Study on Space-Charge-Limited Bipolar Current Flow in Spherical Electron Sheath D. -H. Choi, Y. -S. Park, K. -J. Chung, Y. S. Hwang Seoul National University, Seoul, South Korea 2P-17 Structure and Wall Fluxes of Low-Pressure, Magnetized Plasmas in Cylindrical and Annular Geometries B. Sun, E. Ahedo 65 Technical Program Tuesday afternoon, July 10 Plasmas and Space Propulsion Team, Universidad Politecnica de Madrid, Madrid, Spain 2P-18 IEDF Control Using Multifrequency Harmonic Drive D. H. Clark, A. B. Exum, S. C. Shannon Nuclear Engineering, North Carolina State University, Raleigh, NC, USA Session 2P: Dusty plasmas (poster session ~ 1) Tuesday, July 10 14:00-15:30, Cromdale Hall (Level -2) Session Chairs: Dmitry Samsonov, The University of Liverpool Celine Durniak, The University of Liverpool 2P-19 Dromion in Space and Laboratory Dusty Plasmas K. Annou Physique, USTHB, Bab Ezzouar, Algeria 2P-20 Nonlinear Shear Wave in Non-Newtonian Strongly Coupled Dusty Plasma D. Banerjee, M. S. Janaki, N. Chakrabarti Plasma Physics Division, Saha Institute of Nuclear Physics, Kolkata, India 2P-21 Electrostatic Sheaths of Dusty Plasma in Presence of Magnetic Field S. Chekour University USTHB, Algiers, Algeria, BP32 El Alia,Bab Ezzouar 16111, Algeria 2P-22 Reduction of Size of Byproduct Particles Generated from Cleaning Process Using Low-Pressure Plasmas for Improvement of Vacuum Pump Durability M. Hur1, J. O. Lee1, H. A. Yoo1, W. S. Kang1, Y. H. Song1, D. G. Kim2, S. Y. Lee2 1Korea Institute of Machinery & Materials, Daejeon, South Korea 2Lotvacuum Co., Ltd., Anseong-si, Gyeongi-do, South Korea 2P-23 Trapped Ions and Dusty "Quasi-Atoms" Polarization in an External Electric Field G. I. Sukhinin1,2, A. V. Fedoseev1 1Institute of Thermophysics SB RAS, Novosibirsk, Russian Federation 2Novosibirsk State University, Novosibirsk, Russian Federation 2P-24 Non-Local Kinetic Model for Radial Distributions of Dusty Plasma Parameters in a Glow Discharge G. I. Sukhinin1,2, A. V. Fedoseev2 1Institute of Thermophysics SB RAS, Novosibirsk, Russian Federation 2Novosibirsk State University, Novosibirsk, Russian Federation 2P-25 Conditions for Formation of Dust Layers and Parameters of Dusty Plasma in nearElectrode Area of RF-Discharge E. V. Vasilieva, O. S. Vaulina, O. F. Petrov, V. E. Fortov Institution of Russian Academy of Sciences, Joint Institute for High Temperatures RAS, Moscow, Russian Federation 2P-26 Experimental Study of Pair Correlation Function for Dusty Plasma in RFDischarge E. V. Vasilieva, O. S. Vaulina, O. F. Petrov, V. E. Fortov Institution of Russian Academy of Sciences, Joint Institute for High Temperatures RAS, Moscow, Russian Federation 66 Technical Program Tuesday afternoon, July 10 2P-27 Structural Phase Transitions in the Strongly Coupled Systems with Isotropic Potentials E. V. Vasilieva, O. S. Vaulina Institution of Russian Academy of Sciences, Joint Institute for High Temperatures RAS, Moscow, Russian Federation 2P-28 Numerical Simulations of Thermal Conductivity in 2D Yukawa Systems O. S. Vaulina, Y. V. Khrustalyov Institution of Russian Academy of Sciences, Joint Institute for High Temperatures RAS, Moscow, Russian Federation 2P-29 Approximations for the Pair Correlation Functions in the Two- and ThreeDimensional Systems with Isotropic Pair Potentials O. S. Vaulina Institution of Russian Academy of Sciences, Joint Institute for High Temperatures RAS, Moscow, Russian Federation 2P-30 Scale-Free Behaviour of a 2D Complex Plasma during Rapid Cooling C. A. Knapek1, C. Durniak2, D. Samsonov2, G. E. Morfill1 1Max Planck Institute for extraterrestrial Physics, Garching, Germany 2Department of Electrical Engineering and Electronics, University of Liverpool, Liverpool, UK 2P-31 Shear Instability in Magnetised Collisional Dusty Plasmas B. P. Pandey1, S. V. Vladimirov2, A. A. Samarian2 1Physics & Astronomy, Macquarie University, Sydney, NSW, Australia 2School of Physics, The University of Sydney, Sydney, NSW, Australia Session 2P: Space Plasmas (poster session) Tuesday, July 10 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Felix A Spanier, Lehrstuhl für Astronomie, Universität Würzburg 2P-32 Farley-Buneman Instability in the Weakly Ionised Medium B. P. Pandey1, S. V. Vladimirov2 1Physics & Astronomy, Macquarie University, Sydney, NSW, Australia 2School of Physics, The University of Sydney, Sydney, NSW, Australia 2P-33 Nonplanar Ion-Acoustic Gardner Solitons and Double Layers in Electronegative Plasma with Nonthermal Electrons A. Mannan1, A. A. Mamun1, P. K. Shukla2 1Department Physics, Jahangirnagar University, Dhaka-1342, Bangladesh 2Department Physics & Astronomy, Ruhr-University Bochum, Bochum, Germany 2P-34 Investigations into Auroral Electron Cyclotron Radio Emission Processes by Laboratory Experiments and Numerical Simulations K. M. Gillespie1, D. C. Speirs1, S. L. McConville1, K. Ronald1, A. D. R. Phelps1, A. W. Cross1, C. W. Robertson1, C. G. Whyte1, W. He1, R. Bingham1,2, B. Kellett2, R. A. Cairns3, I. Vorgul3 1SUPA, Department of Physics, University of Strathclyde, Glasgow, United Kingdom 2Space Physics Division, Rutherford Appleton Laboratory, Didcot, United Kingdom 3School of Mathematics and Statistics, University of St. Andrews, St Andrews, United Kingdom 67 Technical Program Tuesday afternoon, July 10 2P-35 Resonant Sweeping of Alfven Waves in Divergent Solar Wind: Simulation Study V. Galinsky, V. Shevchenko ECE, UCSD, La Jolla, CA, USA 2P-36 On the Existence of a Continuous Spectrum in Supernova Remnants: the RayleighTaylor Instability Revisited A. De Andrea Gonzalez Dpto. de Fisica, Universidad Carlos III de Madrid, Leganes, Spain 2P-37 Numerical Investigation of Auroral Magnetospheric Radio Emission D. C. Speirs1, R. A. Cairns2, R. Bingham3, B. J. Kellett3, S. L. McConville1, K. M. Gillespie1, I. Vorgul2, A. D. R. Phelps1, A. W. Cross1, K. Ronald1 1Department of Physics, University of Strathclyde, Glasgow, United Kingdom 2School of Mathematics and Statistics, University of St Andrews, St Andrews, United Kingdom 3Rutherford Appleton Laboratory, Oxford, United Kingdom 2P-38 Solitary Structures in a Plasma with Two Kinds of Ions at Different Temperatures N. S. Saini1, I. Kourakis2 1Department of Physics, Guru Nanak Dev University, Amritsar, Punjab, India 2Department of Physics and Astronomy, Queen's University Belfast, Belfast, Antrim, UK 2P-39 Modeling Energetic Electron Distributions in the Solar Wind M. Lazar Theoretical Physics 4, Ruhr Universität Bochum, Bochum, Germany 2P-40 Theory and Analysis of Plasma Formed by Hypervelocity Impacts S. Close, N. Lee, A. Fletcher, A. Goel Aeronautics and Astronautics, Stanford University, Stanford, CA, USA 2P-41 The Potential of Miniature Electrodynamic Tethers to Enhance Capabilities of Femtosatellites I. C. Bell1, B. E. Gilchrist1, S. G. Bilen2, J. K. McTernan2 1Electrical Engineering, The University of Michigan, Ann Arbor, MI, USA 2Electrical Engineering, The Pennsylvania State University, University Park, PA, USA 2P-42 Electrodynamics and Ionization Effects in the Absorption of Powerful Radio Pulse in the Earth Ionosphere E. Stupitsky, D. Morozov Moscow State Industrial University, Sergiev Posad, Russian Federation Session 2P: Intense Electron Ion Beams (poster session) Tuesday, July 10 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Joseph Schumer, Naval Research Laboratory 2P-43 Flows of Beta-Electrons Within the Magnetic Plasma Cavities: Calculation and Comparison with Experiment E. Stupitsky, N. Kulikova Moscow State Industrial University, Sergiev Posad, Russian Federation 2P-44 200-1200 kV Endpoint X-Ray Production Using Reflex Triodes D. P. Murphy, B. V. Weber, R. J. Commisso 68 Technical Program Tuesday afternoon, July 10 Plasma Physics Division, Naval Research Laboratory, Washington, DC, USA 2P-45 Development of Methods to Measure the Buld Quality of the Self Magnetic Pinch Radiographic Diode J. R. Threadgold, C. Steer, K. Webb, J. Buck, M. Hughes AWE Aldermaston, Reading, United Kingdom 2P-46 Critical Current Dependance on Geometry in the Self-Magnetic-Pinch Radiographic Diode P. N. Martin, J. R. Threadgold AWE, Aldermaston, United Kingdom 2P-47 Virtual Cathode Ion Acceleration Behind the Anode Foil of a Pinched-Beam Ion Diode P. F. Ottinger1, A. S. Richardson2, S. B. Swanekamp2, J. W. Schumer2 1L3 Communications, GS&ES, Chantilly, VA 20151, USA 2Plasma Physics Division, Naval Research Laboratory, Washington, DC 20375, USA 2P-48 Prompt Sub-MeV Neutron Production from the 7Li(p,n)7Be Reaction on Mercury* D. Mosher1, J. P. Apruzese1, R. J. Commisso1, D. D. Hinshelwood1, S. L. Jackson1, J. W. Schumer1, F. C. Young1, J. C. Zier1, J. O'Malley2, C. Clemett2, M. Ellis2, P. N. Martin2, A. Thandi2, J. R. Threadgold2, A. L. Hutcheson3, L. J. Mitchell3, B. F. Phlips3, R. S. Woolf3, E. A. Wulf3 1Plasma Physics Division, Naval Research Laboratory, Washington, DC, USA 2Atomic Weapons Establishment, Aldermaston, United Kingdom 3Space Sciences Division, Naval Research Laboratory, Washington, DC, USA 2P-49 Electron Beam Analysis of Pseudospark Sourced Electron Gun U. N. Pal Microwave Tubes, CSIR-CEERI, Pilani, Pilani, India 2P-50 Limiting Current of Axisymmetric Relativistic Charged-Particle Beam in Coaxial Drift Tube T. Yatsenko1, K. Ilyenko1, G. V. Sotnikov2 1Institute for Radiophysics and Electronics of NAS of Ukraine, Kharkiv, Ukraine 2National Science Center "Kharkiv Institute of Physics and Technology" of NAS of Ukraine, Kharkiv, Ukraine 2P-51 CESAR, a Pulsed Power Generator, Used to Study the Dynamic Behavior of a KDP Crystal. L. Voisin, B. Bicrel, T. Desanlis, G. Duchateau, A. Galtie, L. Hallo, D. Hebert, C. Maunier CEA/CESTA, Le Barp, France 2P-52 Exact Two-Dimensional Numerical Model and Self-Consistent Particle-in-Cell Simulations of Coherent Synchrotron Radiation C. Huang, T. J. T. Kwan, B. Carlsten Los Alamos National Laboratory, Los Alamos, NM, USA 69 Technical Program Tuesday afternoon, July 10 Session 2P: Slow-wave devices (poster session) Tuesday, July 10 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Richard G Carter, Lancaster University 2P-53 One Dimensional Large Signal Parametric Model of Folded Waveguide TWTs D. P. Chernin1, T. M. Antonsen2, B. Levush3 1SAIC, McLean, VA, USA 2University of Maryland, College Park, MD, USA 3Naval Research Laboratory, Washington, DC, USA 2P-54 A New Class of S-Band Microwave Power Module for Phased Antenna Array Radar Applications H. Song1, L. Tekamp1, C. Everleigh2, S. H. Kim3, J. J. Choi3, S. J. Kim4, S. H. Jang4 1Electrical and Computer Engineering, University of Colorado, Colorado Springs, CO, USA 2Pendel Electromagnetics INC., Raleigh, NC, USA 3Radio Science and Engineering, Kwangwoon University, Seoul, South Korea 4Agency for Defense Development, Daejon, South Korea 2P-55 Simulation of a Faceted Magnetron Device Using Field Emission Arrays S. A. Fernandez-Gutierrez1, J. Browning1, J. Watrous2 1Electrical and Computer Engineering, Boise State University, Boise, ID, USA 2NumerEx, Albuquerque, NM, USA 2P-56 Quasi-Optical Theory of Surface-Wave Oscillators with One- and TwoDimensional Periodic Structures A. M. Malkin1, N. S. Ginzburg1, A. S. Sergeev1, V. Y. Zaslavsky2 1IAP RAS, Nizhny Novgorod, Russian Federation 2Radiophysical, NNSU, Nizhny Novgorod, Russian Federation 2P-57 L-Band, Annular Beam Klystron Design R. H. Jackson, M. E. Read, P. Ferguson, G. Nusinovich, R. L. Ives Calabazas Creek Research, San Mateo, CA, USA 2P-58 Electron Beam Interaction with a Metamaterial Structure D. French, D. Shiffler Directed Energy Directorate, Air Force Research Laboratory, Kirtland AFB, USA 2P-59 The Super Magnetron, 40 Mega Watt Conventional Pulse Power L Band Tube M. J. Duffield, T. A. Crompton PTS Engineering, e2v technologies, Chelmsford, Essex, United Kingdom Session 2P: Non-Fusion Microwave Systems (poster session) Tuesday, July 10 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Kevin Ronald, University of Strathclyde 2P-60 Global Models for the Microwave Driven Double ICP Plasma Jet R. P. Brinkmann1, A. Arshadi1, D. Eremin1, T. Mussenbrock1, P. Awakowicz2, H. -E. Porteanu3, R. Gesche3, K. Wandel4 1Theoretical Electrical Engineering, Bochum, Germany 2General Electrical Engineering and Plasma Technology, Bochum, Germany 70 Technical Program Tuesday afternoon, July 10 3Ferdiand-Braun 4SENTECH, Institute, Berlin, Germany Berlin, Germany 2P-61 X-Band Pulse Compression Using a Five-Fold Helically Corrugated Waveguide L. Zhang1, A. W. Cross1, W. He1, C. W. Robertson1, A. R. Young1, C. G. Whyte1, K. Ronald1, A. D. R. Phelps1, S. V. Samsonov2, S. V. Mishakin2, G. G. Denisov2, V. L. Bratman2, N. G. Kolganov2 1Department of Physics, SUPA, University of Strathclyde, Glasgow, United Kingdom 2Institute of Applied Physics, Russian Academy of Sciences, Nizhny Novgorod, Russia 2P-62 A High-Power Ka-Band Free-electron-Maser, Defined by a 2D - 1D Bragg Lasing Cavity P. MacInnes, I. V. Konoplev, A. W. Cross, W. He, H. Yin, C. G. Whyte, C. W. Roberson, K. Ronald, A. D. R. Phelps SUPA Department of Physics, University of Strathclyde, Glasgow, United Kingdom 2P-63 A High-Energy Pulsed-Power-Supply for High-Power Microwave Sources P. MacInnes, A. W. Cross, I. V. Konoplev, C. G. Whyte, W. He, H. Yin, K. Ronald, C. W. Robertson, A. R. Young, A. D. R. Phelps SUPA Department of Physics, University of Strathclyde, Glasgow, United Kingdom 2P-64 Components for the Cold-Testing of a Co-Harmonic Gyrotron D. A. Constable, X. S. Fampris, W. He, C. G. Whyte, C. W. Robertson, K. Ronald SUPA, Department of Physics, University of Strathclyde, Glasgow, United Kingdom 2P-65 High Power Metamaterials for Radiation Sources R. Seviour1, E. Luchinskaya2, D. Shiffler3, J. Luginsland3, D. M. French3 1Huddersfield University, Huddersfield, Sweden 2Lancaster University, Lancaster, UK 3AFRL, Dayton, OH, USA 2P-66 A Rapid Plasma Microwave Switch for Injection Locking of Relativistic Backward Wave Oscillator W. Song, Z. Q. Zhang, J. W. Li, Q. Y. Zhang Science and Technology on High Power Microwave Laboratory, Northwest Institute of Nuclear Technology, Xi'an, Shannxi, China 2P-67 2D Numerical Simulation of Capacitively Coupled RF Plasma Shower Device M. Atanasova1,2, E. A. D. Carbone3, D. Mihailova3, E. Benova2, G. Degrez1, J. J. A. M. V. D. Mullen3 1Department of Applied Sciences, Université Libre de Bruxelles, Brussels, Belgium 2Department for Language Teaching and International Students, Sofia University St. Kliment Ohridski, Sofia, Bulgaria 3Department of Applied Physics, Eindhoven University of Technology, Eindhoven, Netherlands Session 2P: Microwave Plasma Interaction (posters) Tuesday, July 10 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Nicholas Braithwaite, The Open University, UK 2P-68 Operating of Electrode Less, Indium Iodide Based High Intensity Discharge Lamps Within the Use of Plasma Guided Microwaves C. Kaiser, M. C. Ögün, R. Kling Light Technology Institute, Karlsruher Institute of Technology, Karlsruhe, Germany 71 Technical Program Tuesday afternoon, July 10 2P-69 Scattering of Radio Frequency Waves by Edge Density Blobs and Fluctuations in Tokamak Plasmas K. Hizanidis1, A. K. Ram2, C. Tsironis1, Y. Kominis1, P. Zestanakis1 1NTUA and Association EURATOM-Hellenic Republic, Athens, Greece 2PSFC-MIT, Massachusetts, U.S.A. 2P-70 Kinetic Formulation of Wave-Particle Interaction with Coherent Radio Frequency Waves Y. Kominis1, A. Papadopoulos1, K. Hizanidis1, P. A. Zestanakis1, A. K. Ram2 1NTUA and Association EURATOM-Hellenic Republic, Athens, Greece 2PSFC-MIT, Cambridge, Massachusetts, USA 2P-71 Laboratory Experiment to Investigate the Impact of Background Plasma on Cyclotron Emission S. L. McConville1, M. King1, K. Matheson1, C. G. Whyte1, D. C. Speirs1, M. E. Koepke2, K. M. Gillespie1, A. D. R. Phelps1, A. W. Cross1, C. W. Robertson1, R. A. Cairns3, I. Vorgul3, R. Bingham4, B. J. Kellett4, K. Ronald1 1Physics, University of Strathclyde, Glasgow, Scotland 2Physics, West Virginia University, West Virginia, USA 3Mathematics & Statistics, University of St Andrews, Fife, Scotland 4Space Physics Division, Rutherford Appleton Laboratory, Oxford, England 2P-72 Operation of a Microwave Hairpin Probe in a Helicon Plasma Source Z. El Otell1, T. Harle2, S. Pottinger2, M. D. Bowden1, V. Lappas2, N. S. Braithwaite1 1Physical Sciences, The Open University, UK, Milton Keynes, United Kingdom 2Surrey Space Centre, Surrey University, Guidford, United Kingdom 2P-73 Numerical Analysis of Plasma Enhanced Photonic Crystals J. Trieschmann, T. Mussenbrock Electrical Engineering and Information Technology, Ruhr University Bochum, Bochum, Germany 2P-74 Numerical Simulation of a Microwave Driven Low Pressure Plasma for PET Bottle Treatment D. Szeremley1, S. Steves2, P. Awakowicz2, R. P. Brinkmann1, M. Kushner3, T. Mussenbrock1 1Theoretical Electrical Engineering, Ruhr University Bochum, Bochum, Germany 2General Electrical Engineering and Plasma Technology, Ruhr University Bochum, Bochum, Germany 3Electrical Engineering and Computer Science Department, University of Michigan, Ann Arbor, MI, USA 2P-75 Simulations of Ka-Band Travelling Wave Amplifier C. W. Robertson, A. D. R. Phelps, C. G. Whyte, A. R. Young, K. Ronald, A. W. Cross Dept Physics, The University of Strathclyde, Glasgow, United Kingdom 2P-76 Operation of a High Efficiency Microwave Light Source N. S. Braithwaite1, M. D. Bowden1, G. G. Lister2 1Physical Sciences, The Open University, UK, Milton Keynes, United Kingdom 2The Mansion, Bletchley Park, Ceravsision, Milton Keynes, United Kingdom 72 Technical Program Tuesday afternoon, July 10 Session 2P: Radiation Physics (poster session) Tuesday, July 10 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Gianluca Gregori, Oxford University, UK 2P-77 Comparison of EDM Liquid Dielectrics Performances in Terms of Radiative Heat Loss through H2O, C16H34 and N2 Plasma Mediums V. R. Adineh Mechanical Engineering Department, Islamic Azad University, Saveh Branch, Saveh, Iran 2P-78 Analysis of Radiation from Silver HED Plasma Sources with the Potential for Lasing* M. E. Weller1, A. S. Safronova1, V. L. Kantsyrev1, A. A. Esaulov1, A. Stafford1, I. Shrestha1, G. C. Osborne1, V. V. Shlyaptseva1, S. F. Keim1, H. A. Zunino1, A. S. Chuvatin2, J. P. Apruzese3, I. E. Golovkin4, J. J. MacFarlane4 1University of Nevada, Reno, Reno, NV, USA 2Ecole Polytechnique, Palaiseau, France 3Naval Research Laboratory, Washington, DC, USA 4Prism Computational Sciences, Madison, WI, USA 2P-79 Triboluminescence X-Ray Source Enabling Continuous Operation S. Furuya Faculty of Engineering, Saitama Institute of Technology, Fukaya, Japan Session 2P: Fast Z Pinches, X-ray Lasers (poster session ~ 2) Tuesday, July 10 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Christopher A Jennings, Sandia National Laboratories 2P-80 Current Division Between Two Paralleled X-Pinches S. Zhao, H. Luo, X. Zhu, R. Zhang, X. Zou, X. Wang Department Electrical Engineering, Tsinghua University, Beijing, China 2P-81 Experiments on a Table-Top X-Pinch R. Zhang, X. Zhu, S. Zhao, H. Luo, X. Zou, X. Wang Department Electrical Engineering, Tsinghua University, Beijing, China 2P-82 X-Ray Absorption Spectroscopy of Exploding Al Wire Plasmas Using X-Pinch Radiation Sources S. A. Pikuz, T. A. Shelkovenko, P. F. Knapp, C. L. Hoyt, A. D. Canill, D. A. Hammer Cornell University, Ithaca NY, USA 2P-83 Study of Hybrid X-Pinches with Current up to 1.2 MA T. A. Shelkovenko1, S. A. Pikuz1, C. L. Hoyt1, A. D. Cahill1, D. A. Hammer1, I. N. Tilikin2, S. N. Mishin2 1Cornell University, Ithaca NY, USA 2P.N.Lebedev Physical Institute, Moscow, Russia 2P-84 X-pinch Experiments on the UM 1-MA Linear Transformer Driver S. G. Patel, D. A. Chalenski, R. M. Gilgenbach, A. M. Steiner, D. A. Yager-Elorriaga, Y. Y. Lau Nuclear Engineering and Radiological Sciences, University of Michigan, Ann Arbor, MI, USA 73 Technical Program Tuesday afternoon, July 10 2P-85 Two-Frame X-Pinch Radiography System on QiangGuang-1 Facility J. Wu1, L. Wang2, M. Li2 1Department of Engineering Physics, Tsinghua University, Beijing, China 2Northwest Institute of Nuclear Technology, Xi'an, China 2P-86 Planar Wire Array Z Pinch on QiangGuang Generator L. Wang1, J. Wu2, L. Mo1 1Northwest Institute of Nuclear Technology, Xi'an, China 2Department of Engineering Physics, Tsinghua University, Beijing, China 2P-87 Application of VisRad Modeling to Design of Hohlraum Experiments on Zebra with Enhanced Current V. V. Shlyaptseva1, V. L. Kantsyrev1, A. A. Esaulov1, A. S. Safronova1, A. S. Chuvatin2, L. I. Rudakov3, J. J. MacFarlane4, I. Golovkin4 1University of Nevada, Reno, Reno, NV, USA 2Ecole Polytechnique, Paris, France 3Icarus Inc., Bethesda, MD, USA 4Prism Computational Sciences, Madison, WI, USA 2P-88 Analysis of Ni-60 Alloy Precursor Wire Array Experiments on the 1.7 MA ZEBRA Generator at UNR A. Stafford1, A. S. Safronova1, V. L. Kantsyrev1, A. A. Esaulov1, M. E. Weller1, G. C. Osborne1, I. Shrestha1, S. F. Keim1, V. V. Shlyaptseva1, H. A. Zunino1, C. A. Coverdale2, A. S. Chuvatin3 1University of Nevada, Reno, Reno, USA 2Sandia National Laboratories, Albuquerque, USA 3Ecole Polytechnique, Palaiseau, France 2P-89 Velocity and Temperature Measurements of Z Pinch Plasmas Using Optical Thomson Scattering A. J. Harvey-Thompson1, S. V. Lebedev2, S. Patankar2, R. Smith2, H. Doyle2, S. Bland2, J. Chittenden2, G. Hall2, F. Suzuki-Vidal2, G. Swadling2, G. Burdiak2, P. deGrouchy2, L. Pickworth2, E. Khoori2, L. Suttle2, A. Colaitis2, J. Skidmore2, M. Hohenberger3 1Sandia National Laboratories, Albuquerque, NM, USA 2Physics, Imperial College, London, United Kingdom 3Mechanical Engineering, University of Rochester, Rochester, USA 2P-90 Coiled Arrays as a Tool for Modifying Implosion Dynamics in a Wire-Array ZPinch G. N. Hall1, S. V. Lebedev1, J. P. Chittenden1, F. A. Suzuki-Vidal1, S. N. Bland1, P. de Grouchy1, A. Harvey-Thompson1, G. Swadling1, G. Burdiak1, L. Pickworth1, E. Khoory1, J. Skidmore1, L. Suttle1, N. Niasse1, K. H. Kwek2 1Plasma Physics Group, Imperial College London, London, United Kingdom 2University of Malaya, Kuala Lumpur, Malaysia 2P-91 Collision of Wire-Array Plasma with Low Density Foam in a Low-Current Z-Pinch Implosion D. Xiao, N. Ding, S. Sun Institute of Applied Physics and Computational Mathematics, Beijing, China 2P-92 X-Ray Backlighting of Wire Expansion and Plasma Merging of Z-Pinch Load with 10-40kA/Wire 74 Technical Program Tuesday afternoon, July 10 X. Zhu, X. Zou, R. Zhang, S. Zhao, H. Luo, X. Wang Department of Electrical Engineering, Tsinghua University, Beijing, China 2P-93 Two-Dimensional Numerical Studies of Ablated Plasma Dynamics of Wire Array Z-Pinch N. Ding, J. Huang, S. K. Sun, C. Xue Institute of Applied Physics and Computational Mathematics (IAPCM), Beijing, China 2P-94 Long, Stable Plasma Generation in the ZaP Flow Z-Pinch U. Shumlak, R. P. Golingo, M. C. Hughes, S. D. Knecht, W. Lowrie, N. Murakami, B. A. Nelson, M. C. Paliwoda, M. P. Ross University of Washington, Seattle, WA, USA 2P-95 Behavior of Laser Initiated Z Pinch at Small Current Level W. Wei, X. Li, S. Jia Xi'an Jiaotong University, Xi'an, China 2P-96 Emission of High-Energy Ions in the Divergent Gas-Puff Z-Pinch Plasma K. Takasugi, M. Iwata, M. Nishio Nihon University, Tokyo, Japan 2P-97 Current and Magnetic Field Structures in Double Planar Wire Arrays D. Mariscal1, F. Beg1, J. Chittenden2 1UC San Diego, La Jolla, Ca, USA 2Imperial College, London, United Kingdom Session 2P: Particle Diagnostics (poster session) Tuesday, July 10 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Achim von Keudell, Ruhr-University Bochum 2P-98 Investigation of Magnetic Fields in Wire Array Z-Pinches by Proton Deflectometry D. Mariscal1, F. Beg1, J. Chittenden2, R. Presura3, P. Wiewor3, M. Wei1 1UC San Diego, La Jolla, Ca, USA 2Imperial College, London, United Kingdom 3University of Nevada Reno, Reno, NV, USA 2P-99 X-Ray and Neutron Pulse Separation of Plasma Focus Using Fast and Large Volume Plastic Scintillator Detector N. Hajihassani, F. Abbasi Davani Department of Nuclear Engineering, Shahid Beheshti University, Tehran, Iran 2P-100 Electro-Negative Plasma Diagnostic Using Pulse Bias Hairpin Probe N. Sirse1, S. K. Karkari2, M. Turner3 1LPP-CNRS, Ecole Polytechnique, 91128 Palaiseau, France 2Institute for Plasma Research, Gandhinagar-382428, Gujarat, India 3NCPST, School of Physical Sciences, Dublin City University, Dublin-9, Ireland 2P-101 Synthesis of Nanosize Aluminum Powders by Electrical Explosion of Wire in the Gaseous Media L. Liu, Q. Zhang, J. Zhao School of Electrical Engineering, Xi'an Jiaotong University, Xi'an, China 75 Technical Program Tuesday afternoon, July 10 2P-102 Heavy Neutral Beam Probe Space Potential Measurements of the Hlimak Experiment (Te ~ 10 eV) A. Garcia de Gorordo1, G. A. Hallock1, K. W. Gentle2 1Electrical and Computer Engineering, The University of Texas at Austin, Austin, TX, USA 2Department of Physics, The University of Texas at Austin, Austin, TX, USA 2P-103 Plasma Diagnostics with High-Time Resolution Based on Floating Harmonic Method in Pulsed Plasma. Y. S. Kim, D. H. Kim, C. W. Chung Electrical Engineering, Hanyang University, Seoul, South Korea Session 2P: Plasma Material Interactions (poster session) Tuesday, July 10 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Jeffrey Brooks, Purdue University 2P-104 Numerical Simulation of Non-Thermal Atmospheric Pressure Plasma Jet and Comparison with Experiments L. Wang, W. Ning School of Electrical Engineering, Xi'an Jiaotong University, Xi'an, China 2P-105 Magnesium Alloy Oxidation Using Atmospheric Pressure Plasma Jet H. J. Jeong, J. K. Lee Next Generation Product Research Group, POSCO, Pohang, South Korea 2P-106 Controlled Preparation of Alkaline Anion- Exchange Membranes by Plasma Technology J. Hu Institute of Plasma Physics, Chinese Academy of Sciences, Hefei, Anhui, China 2P-107 The Ecton Model of Unipolar Arcing at Fine-Structured Surface S. A. Barengolts1, G. A. Mesyats2, M. M. Tsventoukh2 1Prokhorov General Physics Institute RAS, Moscow, Russian Federation 2Lebedev Physical Institute RAS, Moscow, Russian Federation 2P-108 The Effect of Electron Assisted RF Discharge Plasma on the Surface Propertis of PET Film Y. Guo College of Sciences, Donghua University, Shanghai, China 2P-109 Plasma Etching Resistance of Plasma Anisotropic CVD Carbon Films R. Torigoe1, T. Urakawa1, D. Yamashita1, H. Matsuzaki1, G. Uchida1, K. Koga1,2, M. Shiratani1,2, Y. Setsuhara3,2, M. Sekine4,2, M. Hori4,2 1Kyushu University, Fukuoka, Japan 2JST, CREST, Saitama, Japan 3Osaka University, Osaka, Japan 4Nagoya University, Nagoya, Japan 2P-110 Diamond-Based Microdischarges: Studying the Role of Wall Materials with Electrical and Optical Diagnostics S. Mitea1, M. D. Bowden1, N. S. J. Braithwaite1, M. Zeleznik2, P. W. May2, N. A. Fox2, C. Fowler3, B. Stevens3,4 76 Technical Program Tuesday afternoon, July 10 1Department of Physical Sciences, The Open University, Milton Keynes, UK of Chemistry, University of Bristol, Bristol, UK 3Micro- and Nano-Technology Centre, STFC Rutherford Appleton Laboratory, Didcot, UK 4School of Science and Technology, Nottingham Trent University, Nottingham, UK 2School 2P-111 A Model for Plasma Ignition of Solid Propellant X. Li, R. Li, S. Jia Xi'an Jiaotong University, Xi'an, China 2P-112 Retardation of Degradation of Biomedical Magnesium Alloy by Plasma-Based Deposition Technique G. Wu Department of Physics and Materials Science, City University of Hong Kong, Hong Kong, China 2P-113 Investigation of Preparing Polymer-Base Low-E Film by Pulse Vacuum Arc Y. Shi, D. Cheng, Z. Zong, Y. Xie PPAL, Applied Physics Department, College of Science, Donghua University, Shanghai, China 2P-114 Study on Surface Modification of the L-Lactic Acid Films Using Microplasma K. Shimizu, M. G. Blajan, H. Fukunaga Innovation and Joint Research Center, Shizuoka University, Hamamatsu, Japan 2P-115 PTFE and C3F6 Deposition on the Aisi 1050 Stainless Steel for Lubrication by RF Plasma E. Teke1, H. Varol2, F. Bozduman3, A. Gulec4, L. Oksuz5, S. Manolache6, E. Camurlu7, C. Kurbanoglu8 1Physics, Erdogan Teke, Isparta, Turkey 2Machine, Hatice Varol, Isparta, Turkey 3Physics, Ferhat Bozduman, Isparta, Turkey 4Physics, Ali Gulec, Isparta, Turkey 5Physics, Lutfi Oksuz, Isparta, Turkey 6Engineering Physics, Sorin Manolache, Madison, USA 7Mechanical, Erdem Camurlu, Antalya, Turkey 8Mechanical, Cahit Kurbanoglu, Istanbul, Turkey 2P-116 Anaysis of Photoresist Surface Modified by Fluorocarbon Ions and Radicals M. Sekine, T. Takeuchi, S. Amasaki, K. Takeda, K. Ishikawa, H. Kondo, T. Hayashi, M. Hori Graduate School of Engineering, Nagoya University, Nagoya, Japan Session 2P: Laser produced Plasmas (poster session) Tuesday, July 10 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Paul McKenna, University Strathclyde, UK 2P-117 Effects of Preplasma Scale Length and Critical Surface Dynamics on Laser Energy Coupling to Hot Electrons R. J. Gray1, D. C. Carroll1, X. H. Yuan1, C. M. Brenner1,2, M. Burza3, M. Coury1, K. L. Lancaster2, X. X. Lin4, M. N. Quinn1, O. Tresca1, C. -G. Wahlstrom3, D. Neely2, P. McKenna1 1Physics, University of Strathclyde, Glasgow, United Kingdom 2Central Laser Facility, Rutherford Appleton Laboratory, Oxford, United Kingdom 3Department of Physics, Lund University, Lund, Sweden 77 Technical Program 4Beijing Tuesday afternoon, July 10 National Laboratory of Condensed Matter Physics, Chinese Academy of Sciences, Beijing, China 2P-118 Investigation of Fast Electron Injection and Transport Angles in High Intensity Laser-Solid Interactions M. Coury1, D. C. Carroll1, A. P. L. Robinson2, X. Yuan1, C. M. Brenner2, M. Burza3, R. J. Gray1, K. L. Lancaster2, X. X. Lin4, Y. Li4, M. N. Quinn1, O. Tresca1, C. -G. Wahlstrom3, D. Neely2, P. McKenna1 1Department of Physics, University of Strathclyde, Glasgow, United Kingdom 2STFC Rutherford Appleton Laboratory, Central Laser Facility, Oxfordshire, United Kingdom 3Department of Physics, Lund University, Lund, Sweden 4Department of Physics, Beijing National Laboratory of Condensed Matter Physics, Beijing, China 2P-119 Spatially and Spectrally Resolved X-Ray Measurements in Intense Laser-Plasma Interactions H. W. Powell1, X. `. Yuan1, D. C. Carroll1, M. Coury1, R. J. Gray1, C. M. Brenner1,2, M. N. Quinn1, O. Tresca1, D. MacLellan1, P. McKenna1, B. Zielbauer3, X. X. Lin4, Y. T. Li4, D. Neely2 1Department of Physics, SUPA, University of Strathclyde, Glasgow, United Kingdom 2Central Laser Facility, Rutherford Appleton Laboratory, Oxford, United Kingdom 3PHELIX Department, Gesellschaft für Schwerionenforschung, Darmstadt, Germany 4State Key Laboratory of Transient Optics and Photonics, Xi’an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Beijing, China 2P-120 Superthermal Effects on the Two-Dimensional Dynamics of Electrostatic Solitons in Laser Plasmas G. M. Williams, S. Sultana, I. Kourakis Centre for Plasma Physics, Queen's University Belfast, Belfast, United Kingdom 2P-121 Laser Induced Sparks in Atmospheric Helium and Helium Mixtures, Probbed with Thomson Scattering E. Nedanovska1, W. Graham1, G. Nersisyan1, T. J. Morgan2, L. Huwel2, D. Riley1 1Centre for Plasma Physics, Queen's University Belfast, Belfast, United Kingdom 2Department of Physics, Wesleyan University, Middletown, USA 2P-122 Plasma Diagnostic Study of Nickel Alloy Generated by Fundamental and Second Harmonics of a Nd: Yag Laser M. Hanif1, M. Salik2, M. A. Baig2 1Department of Basic Science, MCS, National University of Sciences & Technology (NUST), Rawalpindi, Pakistan 2Department of Physics, Quaid-i-Azam University,, Islamabad, Pakistan 2P-123 Interaction Between a Laser Produced Plasma and a Solid Substrate, in a Low Pressure Neutral Background Gas M. Favre, L. S. Caballero, F. Guzman, H. M. Ruiz, H. Bhuyan, H. Chuaqui, E. S. Wyndham Physics, Pontificia Universidad Católica de Chile, Santiago, Chile 2P-124 Investigations of Efficiency of Laser Radiation Energy Transport into a Planar Massive Target Made of Al Z. Kalinowska1, A. Kasperczuk1, T. Pisarczyk1, T. Chodukowski1, S. Y. Guskov2, N. Demchenko2, J. Ullschmied3, E. Krousky4, M. Pfeifer4, K. Rohlena4, J. Skala4, P. Pisarczyk5 1Institute of Plasma Physics and Laser Microfusion, Warsaw, Poland 78 Technical Program Tuesday afternoon, July 10 2P.N. Lebedev Physical Institute of RAS, Moscow, Russia of Plasma Physics ASCR, Prague, Czech Republic 4Institute of Physics ASCR, Prague, Czech Republic 5Warsaw University of Technology, Warsaw, Poland 3Institute 2P-125 Preionization Layer and Its Contribution to Advancement Mechanism of LaserProduced Plasma K. Shimamura, K. Komurasaki Advanced Energy, University of Tokyo, Chiba, Japan 2P-126 Heating Structure of Laser-Supported Detonation and Its Oscillation Motion Using Half Self-Emission Half Shadowgraph Visualization K. Shimamura1, K. Michigami1, K. Komurasaki1, H. Koizumi2, Y. Arakawa2 1Advanced Energy, University of Tokyo, Chiba, Japan 2Aeronautics and Astronautics, University of Tokyo, Tokyo, Japan 2P-127 Simulations of the Production of Attosecond Pulses via Harmonic Generation Using a Variable-Length-Scale Pre-Plasma as a Relativistic Mirror P. G. Cummings, F. J. Dollar, A. G. R. Thomas Center for Ultrafast Optical Sciences, University of Michigan, Ann Arbor, MI, USA 2P-128 High-Order Harmonic Generation of Ultrashort Radiation in Laser Produced Plasmas: Recent Achivements R. A. Ganeev Physical Department, Imperial College London, London, United Kingdom 2P-129 Electron Acceleration by Enhanced Laser-Overdense Plasma Coupling via Resonant Surface Wave Excitation A. Bigongiari1, M. Raynaud1, C. Riconda2, A. Heron3 1CEA/DSM/LSI, CNRS, Ecole Polytechnique, 91128,Palaiseau, France 2TIPS/LULI, Universite Paris 6, CNRS, CEA,, Ecole Polytechnique, 94200, Ivry-sur-Seine, France 3CPHT, CNRS, Ecole Polytechnique, 91128,Palaiseau, France 2P-130 Optical Diagnostics and Breakdown Scaling of 1064 nm Laser Induced Plasmas in Air and Other Phase Boundaries M. Thiyagarajan, K. Williamson Texas A&M University-Corpus Christi, Corpus Christi, TX, USA Session 2P: Plasma Medicine (poster session ~ 1) Tuesday, July 10 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Mounir Laroussi, Old Dominion University 2P-131 Effect of Non-Thermal Plasma Exposure on Regrowth Potential of Foodborne and Nosocomial Pathogens M. Thiyagarajan, G. Vidal, H. Pham, J. Ausland Texas A&M University - Corpus Christi, Corpus Christi, TX, USA 2P-132 Non-Thermal Plasma Induction of Pre-Programmed Cell Death in Monocytic Leukemia Cells M. Thiyagarajan, X. Gonzales, H. Anderson, M. Norfolk Texas A&M University - Corpus Christi, Corpus Christi, USA 79 Technical Program Tuesday afternoon, July 10 2P-133 Preliminary Studies on Biocidal Activities of UV-C Emitting Phosphors under Plasma Excitations. B. Caillier1, J. Demoucron1, P. Guillot1, J. Dexpert-ghys2, R. Mauricot2, M. Caiut3 1CUFR JFC, Albi, France 2CEMES, Toulouse, France 3Department of Chemistry, University of São Paulo, Ribeirão, Brazil 2P-134 Inactivation Pathways of Reactive Species Generated by Low Temperature Atmospheric Pressure Plasma N. Barekzi, M. A. Akman, M. Laroussi Old Dominion University, Norfolk, USA 2P-135 Low Temperature Atmospheric Pressure Plasma Kills Leukemia Cells N. Barekzi, M. Laroussi Old Dominion University, Norfolk, USA 2P-136 Effects of Control Parametrs on Apoptosis in Atmospheric Pressure Pulsed Helium Plasma Jet T. H. Chung, H. M. Joh, S. H. Leem Physics, Dong-A University, Busan, South Korea 2P-137 Temperature Contorollable Cold Plasma Source for Medical Application T. Oshita1, T. Takamatsu1, N. Nakashima2, H. Miyahara1, Y. Matsumoto1, A. Okino1 1Energy Sciences, Tokyo Institute of Technology, Kanagawa, Japan 2Plasma Factory, Co. Ltd., Kanagawa, Japan 2P-138 Cell Apoptosis Induced by Atmospheric Pressure Plasma Y. Yang1, Z. Xiong1, F. Zou1, X. Lu1, X. Yan2, S. Zhao2, G. Yang2, G. He2 1College of Electrical and Electronics Engineering, Huazhong University of Science and Technology, Wuhan, Hubei, China 2College of Life Science and Technology, Huazhong University of Science and Technology, Wuhan, Hubei, China 2P-139 Effect of Non-Thermal Plasma on Cells in Presence of Ionic Liquids Y. Han1, N. K. Kaushik1, E. H. Choi1, P. Attri2 1Plasma Bioscience Research Center, Kwangwoon University, Seoul, South Korea 2Department of Chemistry, University of Delhi, Delhi, India 2P-140 Effect of Non-Thermal Plasma on Loading of Tetracycline Combined with PLGA into Titania Nanotube S. -Y. Im1, S. -K. Moon1, J. -S. Kwon1, Y. H. Kim2, K. -M. Kim1, E. H. Choi2, K. -N. Kim1 1Department and Research Institute of Dental Biomaterials and Bioengineering, Yonsei University College of Dentistry, Seoul, Republic of Korea 2Plasma Bioscience Research Center, Kwangwoon University, Seoul, Republic of Korea 2P-141 Decontamination of Microorganisms by Low-Temperature Atmospheric Pressure Microplasma D. Czylkowski1, B. Hrycak1, M. Jasiński1, M. Dors1, J. Mizeraczyk1,2 1Centre for Plasma and Laser Engineering, The Szewalski Institute of Fluid-Flow Machinery, Polish Academy of Sciences, Gdańsk, Poland 2Department of Marine Electronics, Gdynia Maritime University, Gdynia, Poland 80 Technical Program Tuesday afternoon, July 10 2P-142 Sterilization of Bacillus Subtilis Spores by Atmospheric Pressure Plasma Jet with Ar and Ar/H20 Mixtures C. Cheng, J. Shen, S. Fang, Y. Meng, X. Wang, J. Li Institute of Plasma Physics, Chinese Academy of Sciences, Shushahu Road No. 350, Hefei, China, Hefei, Anhui, China 2P-143 Sterilization of Bacillus Subtilis Spores Using an Atmospheric Plasma Jet J. Shen1, J. Li1, J. Luo2 1Institute of Plasma Physics, Chinese Academy of Sciences, Shushahu Road No. 350, Hefei, China, Hefei, Anhui, China 2College of Science, Donghua Unversity, Songjiang District People North Road 2999, Shanghai, China 2P-144 Risk Assessment of a Plasma Device for Therapeutic Use in Dermatology S. Baldus1, N. Bibinov1, C. Suschek2, P. Awakowicz1 1Institute for Electrical Engineering and Plasma Technology (AEPT), Ruhr-University Bochum, Bochum, Germany 2Department of Trauma and Hand Surgery, Dusseldorf University Hospital, Dusseldorf, Germany 2P-145 The Effects of Rat C6 Glioma Cells and in Vivo Tumor by Atmospheric Pressure Cold Plasma Jet Y. Wang1, C. Cheng2, J. Shen2, J. Li2 1The first Affiliated Hospital of Anhui Medical University, Jixi Road No.210,Hefei 230032, P.R. China, Hefei, Anhui, China 2Institute of Plasma Physics, Chinese Academy of Sciences, Shushahu Road No. 350, Hefei, China, Hefei, Anhui, China 2P-146 Improving the Degradation Behavior of Magnesium Alloy by Plasma Surface Modification for Biomedical Application M. I. Jamesh, G. Wu, Y. Zhao, P. K. Chu Department of Physics and Materials Science, City University of Hong Kong, Hong Kong, China 2P-147 Characterization of an Otft-Based Biosensor Using a Tips-Pen Composite with Atmospheric Plasma-Treatment H. G. Jeon, C. Y. Cho, Y. C. Kim, J. S. Choi, Y. K. Kim, E. H. Choi, B. Park Electrophysics, Kwangwoon University, Seoul, South Korea 2P-148 Optical Detection in Plasma-Treated Phospholipid Layers by Surface Plasmon Resonance Investigation C. Y. Cho, H. G. Jeon, Y. C. Kim, J. C. Shin, B. Park Department of Electrophysics, Kwangwoon University, Seoul, South Korea 2P-149 Measurement of Bimolecular Valence Band Energy Structure of Erythrocyte after Bio-Plasma Treatment. J. Y. Lee1, K. Y. Baik2, Y. H. Kim2, E. H. Choi1,2 1Department of Electrophysics, Kwangwoon University, Seoul, South Korea 23College of Veterinary Medicine, Chonbuk National University, Chollabuk-Do, South Korea 2P-150 Characteristics of Atmospheric Pressure Plasma for Decontamination of Endoscopic Channels X. Wang1, C. Bai1, D. Li1, D. Liu1, M. Rong1, M. Kong2 81 Technical Program 1School 2School Tuesday afternoon, July 10 of Electrical Engineering,, Xi'an Jiaotong University, Xi'an, Shaanxi, China of Electronic, Electrical and Systems Engineering, Loughborough University, Leicester, UK 2P-151 Effect of Non-Thermal Atmospheric Pressure Plasma Jet on Hydrophilicity and Cellular Activity of SLA-Treated Titanium Surface E. -J. Lee1, J. -S. Kwon1, S. -H. Uhm1, Y. H. Kim2, K. -M. Kim1, E. H. Choi2, K. -N. Kim1 1Department and Research Institute of Dental Biomaterials and Bioengineering, Yonsei University College of Dentistry, Seoul, Republic of Korea 2Plasma Bioscience Research Center, Kwangwoon University, Seoul, Republic of Korea 2P-152 Antimicrobial Efficacy of Non-Thermal Atmospheric Pressure Plasma Jet on Oral Micro-Organisms E. -M. Yoo1, S. -H. Uhm1, J. -S. Kwon1, H. -S. Choi1, K. -M. Kim1, E. H. Choi2, K. -N. Kim1 1Department and Research Institute of Dental Biomaterials and Bioengineering, Yonsei University College of Dentistry, Seoul, Republic of Korea 2Plasma Bioscience Research Center, Kwangwoon University, Seoul, Republic of Korea 2P-153 Synergistic Actions of Bacillus Subtilis Devitaliztion by Atmosphere Plasma Jet Y. Meng 11st Division, Institute of Plasma Physics, Chinese Academy of Sciences, Hefei, Anhui, China 2P-154 Decomposition of Albumin Protein Monolsyer by Using Atmospheric Plasma Treatment Y. C. Kim, C. Y. Cho, H. G. Jeon, G. S. Cho, B. Park Department of Electrophysics, Kwangwoon University, Seoul, South Korea 2P-155 Handheld Cold Atmospheric Air Plasma Pen and in Vitro Studies of M.R.S.A, C. Difficile and A. Baumannii Decontamination N. O'Connor1, O. J. Cahill1, S. Galvin2, N. Stevens2, C. McDonnell3, N. O Hare3, H. Humphreys2, S. Daniels1 1NCPST, Dublin City University, Dublin 11, Ireland 2Clinical Microbiology, Beaumont Hospital, Dublin, Ireland 3MPBE, St James Hospital, Dublin 8, Ireland 2P-156 Control of Biocidal Properties Conferred to Polymers by Dry Ozone Exposure for Achieving Inactivation of B.atropaheus Spores M. Moisan Physique, Universite de Montreal, Montreal, Quebec, Canada 2P-157 The Effects of a Helium Based RF Microplasm with Small Additions of O2, Ar and N2 on Plasmid DNA L. J. Cox1, W. G. Graham1, J. S. Sousa2, D. O'Connell3, T. Gans3 1Centre for Plasma Physics, Queen's University Belfast, Belfast, Northern Ireland, United Kingdom 2Laboratoire de Physique des Gaz et des Plasmas, CNRS and Universite Paris-Sud, Orsay, France 3York Plasma Institute, University of York, Heslington, United Kingdom 2P-158 Surgeon's Knife Blade Covered with Plasma Y. Kim, S. Han, G. -H. Han, M. Lee, W. Y. Lee, G. Park, E. -H. Choi, H. S. Uhm, G. Cho Department of Electrophysics, Kwangwoon University, Seoul, South Korea 82 Technical Program Tuesday afternoon, July 10 2P-159 Blood Coagulation with Atmospheric-Plasma Jets M. Lee, H. Kim, Y. Kim, W. Y. Lee, K. Y. Baik, N. K. Kaushik, G. Cho Department of Electrophysics, Kwangwoon University, Seoul, South Korea 2P-160 Nonthermal Plasma Effects on Mesenchymal Stem Cell Differentiation K. Y. Baik1, J. S. Choi2, R. Jung2, E. Choi1,2 1Plasma Bioscience Research Center, Kwangwoon University, Seoul, South Korea 2Department of Electrophysics, Kwangwoon University, Seoul, South Korea Session 2P: High-Temperature and Thermal Plasma Processing (poster session) Tuesday, July 10 14:00-15:30, Cromdale Hall (Level -2) Session Chair: Anthony B Murphy, CSIRO Materials Science & Engineering 2P-161 Experiment and Simulation Study of Synthesis of Carbon Nanostructures in Anodic Arc J. Li, A. Shashurin, M. Kundrapu, M. Keidar Department of Mechanical and Aerospace Engineering, The George Washington University, Washington, DC, USA 2P-162 Novel Structured Coatings by Means of Gas Tunnel Type Plasma Spraying A. Kobayashi Osaka University, Osaka, Japan 2P-163 Computational Modeling of Moderate Pressure Microwave Plasma-Assisted Chemical Vapor Deposition Reactors C. S. Meierbachtol1, B. Shanker1,2, T. A. Grotjohn1 1Department of Electrical and Computer Engineering, Michigan State University, East Lansing, MI, USA 2Department of Physics and Astronomy, Michigan State University, East Lansing, MI, USA 2P-164 Plasma Spray Insulation Coating for ITER Magnet Supports M. Liao Magnet support team, Southwestern Institute of Physics, Chengdu, Sichuan Province, China 2P-165 Preparation of Hard Carbon Films by Microwave Plasma Torched under the Open-Air H. Yagi, S. Yahara, Y. Shibata Mechanical Engineering, Ehime University, Matsuyama, Japan 2P-166 Behavioural Study of SF6 Replacement Gases in Power Transmission Systems J. Zhang1, R. Duan1, J. Yan2 1Electrical and Electronic Engineering, Xi'an Jiaotong-Liverpool University, Suzhou, China 2Electrical Engineering and Electronics, Liverpool University, Liverpool, UK 2P-167 Formation of Nanoparticles of Binary W-Cu and Ternary W-Ni-Fe Systems in Thermal Plasma Jet A. V. Samokhin, N. V. Alexeev, A. A. Fadeev, Y. V. Tsvetkov Laboratory of Plasma Processes in Metallurgy, Institute of Metallurgy and Materials Sciences, Moscow, Russian Federation 83 Technical Program Tuesday afternoon, July 10 2P-168 Treatment and Recycling of Hazardous Waste Incineration Residues Using Thermal Plasma Technology X. Tu Department of Electrical Engineering and Electronics, University of Liverpool, Liverpool, United Kingdom 2P-169 VHF Ballasting for High Density Atmospheric Glow Discharges B. R. Byrns, A. Lindsay, S. Shannon Nuclear Engineering, North Carolina State University, Raleigh, USA 2P-170 A Description of the Experimental Microwave Discharge Behavior Versus Pressure, Power and Reactor Geometry for Mpacvd Diamond Synthesis Reactors J. Lu1, Y. Gu1,2, J. Asmussen1,2 1Electrical & Computer Engineering, Michigan State University, East Lansing, MI, USA 2Center for Coatings and Laser Applications, Fraunhofer USA, East Lansing, MI, USA 2P-171 Real-Time Prevention of Spots on Thermionic Cathodes in High-Pressure Arc Discharges P. G. C. Almeida, M. S. Benilov, M. D. Cunha, J. G. L. Gomes Universidade da Madeira, Funchal, Portugal 2P-172 Joule Heat Generation in Thermionic Cathodes of High-Pressure Arcs M. S. Benilov, M. D. Cunha Universidade da Madeira, Funchal, Portugal 2P-173 Effect of Operating Parameters on the Formation of Nickel Aluminate Spinel Through Transferred Arc Plasma Torch K. Suresh1, K. P. Rao1, S. Yugeswaran2, A. Kobayashi2, V. Selvarajan3 1Department of Mechanical and Biomedical Engineering, City University of Hong Kong, 83 Tat Chee Avenue, Kowloon, Hong Kong SAR, China 2Joining and Welding Research Institute, Osaka University, Ibaraki, Osaka-5670047, Japan 3formerly with Plasma Physic Laboratory, Department of Physics, Bharathiar University, Coimbatore-641046, Tamilnadu, India 2P-174 Diagnostics and Modelling for the Optimization of Precursor Evaporation in Silicon Nano-Particle Synthesis by Radio-Frequency Induction Thermal Plasmas V. Colombo1, E. Ghedini1, M. Gherardi1, P. Sanibondi1, C. Delval2, M. Leparoux2 1Alma Mater Studiorum - Université di Bologna, Department of Mechanical Engineering, Bologna, Italy 2EMPA, Swiss Federal Laboratories for Materials Science and Technology, Advanced Materials Processing, Thun, Switzerland 2P-175 Temperature Profiles of Welding Arcs and Its Interpretation D. Uhrlandt, R. Kozakov, G. Goett, M. Wendt, H. Schoepp Leibniz-Institute for Plasma Science and Technology e.V. (INP Greifswald), Greifswald, Germany 2P-176 Study for MDS Properties of Pressured CO2 to Supercritical State and DC Breakdown Mechanism C. H. Zhang EE, Harbin Institute of Technology, Harbin, China 84 Technical Program Tuesday afternoon, July 10 2P-177 Investigation of a Toroidal Air Plasma under Atmospheric Conditions R. Curry1, A. Lodes1, W. Brown2, M. Schmidt2 1Center for Physical and Power Electronics, University of Missouri-Columbia, Columbia, Missouri, USA 2Rocky Mountain Division, Applied Research Associates, Littleton, Colorado, USA Session 2P: Plasma Thrusters (poster session) Tuesday, July 10 14:00-15:30, Cromdale Hall (Level -2) Session Chair: John E. Foster, University of Michigan 2P-178 Effects of Aperature Diameter and Gas Flow Rate on a Piezoelectric Plasma Propulsion System K. M. Olson, S. D. Kovaleski, B. T. Hutsel, E. A. Baxter Department of Electrical Engineering, University of Missouri - Columbia, Columbia, MO, USA 2P-179 Simulation and Experimental Analysis of a Miniature Ion Thruster Fabricated in Low Temperature Co-Fired Ceramic P. P. Bumbarger1, S. Shawver1, J. Browning1, D. Plumlee2, S. M. Loo1, D. Reis2, M. Yates2, K. Parrish2, J. Taff3, L. Knowles2 1Electrical and Computer Engineering, Boise State University, Boise, ID, USA 2Mechanical and Biomedical Engineering, Boise State University, Boise, ID, USA 3Materials Science and Engineering, Boise State University, Boise, ID, USA 2P-180 Study of an Electrospray-Based Electric Propulsion System for Small Satellites M. Jugroot, M. Forget Mechanical and Aerospace, Royal Military College of Canada, ON, Canada 2P-181 Evaluation of Plasma Transport in a Multipole Ion Source and Its Impact on Discharge Performance A. A. Hubble, J. E. Foster Nuclear Engineering and Radiological Sciences, University of Michigan, Ann Arbor, MI, USA 2P-182 Review on the Study of Electron near Wall Conductivity in Hall Thrusters H. Li, H. Liu, D. Yu College of Energy Science and Engineering, Laboratory of Plasma Propulsion, Harbin, China 2P-183 Numerical Simulation of Charge Exchange Ion’s affect in Ion Extraction for Ion Optics Y. Chu, Y. Cao Department of Mechanical Engineering & Automation, Harbin Institute of Technology Shenzhen Graduate School, Shenzhen, Guangdong, China 2P-184 Plasma-Wall Interaction in Presence of Intense Electron Emission from Walls I. Kaganovich, Y. Raitses PPPL, Princeton, NJ, USA 2P-185 Plasma Structure Inside and Outside a Helicon Thruster E. Ahedo, J. Navarro, M. Merino Plasmas and Space Propulsion Team, Universidad Politecnica de Madrid, Madrid, Spain 85 Technical Program Tuesday afternoon, July 10 Session 4A: Generators, Compact Pulsed Power and Applications (oral) Tuesday, July 10 15:30-17:45, Tinto Room (Level 0) Session Chairs: Jane Lehr, Sandia National Laboratories Masahiro Akiyama, Ichinoseki National College of Technology 15:30 4A-1 (invited) Stand-Alone Pulsed Power Generator for HPM Generation A. A. Neuber, J. Stephens, C. Lynn, J. Walter, J. Dickens, M. Kristiansen Center for Pulsed Power and Power Electronics, Texas Tech University, Lubbock, USA 16:00 4A-2 Numerical Simulation of Commercial-Scale Non-Equilibrium Magnetohydrodynamic Generator with Inlet Swirl Y. Hamaguchi1, T. Fujino2, M. Ishikawa2 1Graduate School of Systems and Information Engineering, University of Tsukuba, Tsukuba, Japan 2Faculty of Engineering, Information and Systems Division of Engineering Mechanics and Energy, University of Tsukuba, Tsukuba, Japan 16:15 4A-3 Atmospheric Room-Temperature Helium Plasma Streams Produced Using a Dielectric Barrier Discharge Generator with a Honeycomb-like Inner Electrode Q. -Y. Nie1, A. Yang1,2,3, H. -P. Li1, X. -Z. Zhang2, C. -Y. Bao1 1Department of Engineering Physics, Tsinghua University, Beijing, China 2Institute of Medical Equipment, Academy of Military Medical Sciences, Tianjin, China 3iomedical Engineering Institute, Southern Medical University, Guangzhou, China 16:30 4A-4 Synergistic Effect of Nanosecond Pulsed Electric Fields Combined with Low Concentration of Gemcitabine on Humanoral Squamous Cell Carcinoma InVitro S. Wu1, J. Guo2, W. Wei3, H. Feng1, H. Pan2, J. Wang2, J. Zhang3, J. Fang3, S. J. Beebe4 1College of Engineering, Peking University, Beijing, China 2School of Stomatology, Lanzhou University, Lanzhou, China 3Academy of Advanced Interdisciplinary Studies, Peking University, Beijing, China 4Frank Reidy Research Center for Bioelectrics, Old Dominion University, Virginia, USA 16:45 4A-5 Non-Invasive Hyperthermic Necrosis of Cancer Cells Using a Nanosecond Pulsed Electric Field C. D. Burford1, N. Boriraksantikul2, K. D. Bhattacharyya1, N. E. Islam2, J. A. Viator1 1Department of Biological Engineering, University of Missouri-Columbia, Columbia, MO, USA 2Department of Electrical and Computer Engineering, University of Missouri-Columbia, Columbia, MO, USA 17:00 4A-6 Nanosecond Pulsed Electric Fields Caused Breast Cancer Self-Distruction: under Magnetic Resonase Imaging Evaluation W. Wei1, S. Wu2, J. Guo3, H. Feng2, W. Nian1, H. Pan3, J. Zhang1, J. Fang1 1Academy for Advanced Interdisciplinary Studies, Peking University, Beijing, China 2College of Engineering, Peking University, Beijing, China 3School of Stomatology, Lanzhou University, Lanzhou, China 17:15 4A-7 Low Temperature Plasma Production in Water, Supercritical Fluid and Air Flow and Its Applications H. Akiyama1, M. Inokuchi1, H. Ishizawa1, T. Sakamoto1, T. Furusato1, T. Sakugawa1, S. Katsuki1, G. Sebastian1, M. Akiyama2 1Graduate School of New Frontier Science, Kumamoto University, Kumamoto, Japan 2Ichinoseki National College of Technology, Ichinoseki, Japan 86 Technical Program Tuesday afternoon, July 10 17:30 4A-8 Triggering and Guiding of High-Voltage Tesla Coil Discharges by Femtosecond Laser-Induced Plasma Filaments in Air Y. Y. Brelet, A. A. Houard, B. B. Prade, J. J. Carbonnel, Y. -B. Y. André, A. A. Mysyrowicz Laboratoire d'Optique Appliqué, LOA/ENSTA ParisTech - Ecole Polytechnique-CNRS, Palaiseau, France Session 4B: Fast-Wave Devices (oral) Tuesday, July 10 15:30-17:45, Moorfoot Room (Level 0) Session Chair: Monica Blank, CPII 15:30 4B-1 (invited) EU Gyrotron Development for ITER: Recent Achievements and Experimental Results of the Coaxial 2 MW Gyrotron S. Kern1, G. Gantenbein1, S. Illy1, J. Jelonnek1, J. Jin1, I. Pagonakis1, B. Piosczyk1, T. Rzesnicki1, M. Thumm1, J. -P. Hogge2, S. Alberti2, F. Li2, M. Q. Tran2, K. Avramides3, I. Tigelis4 1IHM, Karlsruhe Institute of Technology (KIT), Karlsruhe, Germany 2CRPP, Ecole polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland 3School of Electrical and Computer Engineering, National Technical University of Athens, Greece 4Faculty of Physics, National and Kapodistrian University of Athens, Athens, Greece 16:00 4B-2 Impact of Gyrotron Power Modulation on the Collector of the 2MW, 170GHz Gyrotron for ITER S. Illy1, S. Kern1, I. Pagonakis1, M. Thumm1, A. Vaccaro2 1IHM, Karlsruhe Institute of Technology (KIT), Karlsruhe, Germany 2IAM-AWP, Karlsruhe Institute of Technology (KIT), Karlsruhe, Germany 16:15 4B-3 Experimental Research on a 1.5 MW, 110 GHz Gyrotron D. S. Tax, W. C. Guss, M. A. Shapiro, R. J. Temkin Plasma Science and Fusion Center, MIT Plasma Science and Fusion Center, Cambridge, MA, USA 16:30 4B-4 Recent Improvements in Time-Variant Gyrotron RF Output Spectrum Monitoring A. Schlaich1, G. Gantenbein2, S. Kern2, M. Thumm2 1Institut fuer Hochfrequenztechnik und Elektronik (IHE), Karlsruhe Institute of Technology (KIT), Karlsruhe, Germany 2Institute for Pulsed Power and Microwave Technology (IHM), Karlsruhe Institute of Technology (KIT), Karlsruhe, Germany 16:45 4B-5 Stability of Gyrotron Operation on the Second Harmonic O. V. Sinitsyn, R. Pu, G. S. Nusinovich, T. M. Antonsen, Jr. Institute for Research in Electronics and Applied Physics, University of Maryland, College Park, MD, USA 17:00 4B-6 A W-Band Gyro-TWA Based on a Cusp Electron Gun and Helically Corrugated Waveguide C. R. Donaldson, W. He, L. Zhang, P. McElhinney, A. D. R. Phelps, A. W. Cross, K. Ronald University of Strathclyde, Glasgow, United Kingdom 17:15 4B-7 Powerful Short Wavelength FEMs Operated at Harmonics of Bounce Frequency: Recent Results and Prospects N. Y. Peskov1, I. V. Bandurkin1, N. S. Ginzburg1, A. V. Savilov1, A. S. Sergeev1, A. K. Kaminsky2, E. A. Perelstein2, S. N. Sedykh2 87 Technical Program Tuesday afternoon, July 10 1Institute 2Joint of Applied Physics RAS, Nizhny Novgorod, Russian Federation Institute for Nuclear Research, Dubna, Russian Federation 17:30 4B-8 The Cyclotron Maser Based on the Combination Two-Wave Resonance A. V. Savilov Institute of Applied Physics, Russian Academy of Sciences, Nizhny Novgorod, Russian Federation Session 4C: Fusion - Inertial, Magnetic and Alternate Concepts (oral) Tuesday, July 10 15:30-17:30, Fintry Auditorium (Level 3) Session Chair: Jeremy Chittenden, Imperial College 15:30 4C-1 Effects of Alpha Particle Transport in 3D 4π Hydro Simulations of Perturbed NIF Targets S. Taylor, B. Appelbe, N. Niasse, J. Chittenden Department of Physics, Imperial College London, London, United Kingdom 15:45 4C-2 A Novel Approach to ICF Ignition Y. -M. Wang Los Alamos National Laboratary, Los Alamos, NM, USA 16:00 4C-3 Ultra-High Density Deuterium Cluster Material for Deuteron Beam Driven Fast Ignition X. Yang1, G. H. Miley1, H. Hora2, K. A. Flippo3, D. T. Offermann3, S. A. Gaillard4 1Nuclear, Plasma, Radiological Engineering, University of Illinois at Urbana-Champaign, Urbana, IL, USA 2University of New South Wales, Sydney, Australia 3Los Alamos National Laboratory, Los Alamos, NM, USA 4HelmholtzZentrum Dresden-Rossendorf, Dresden, Germany 16:15 4C-4 Kinetic Effects of Burn in Magnetized and Unmagnetized Dense Plasmas B. D. Appelbe, S. Taylor, J. Chittenden Imperial College London, London, United Kingdom 16:30 4C-5 Thermonuclear Burn Wave Propagation Across an Ultrahigh Magnetic Field A. L. Velikovich1, J. L. Giuliani1, R. W. Clark2, S. T. Zalesak2 1Plasma Physics Division, Naval Research Laboratory, Washington, DC, USA 2Berkeley Research Associates, Beltsville, MD, USA 16:45 4C-6 Field-Reversed Configuration Formation for High Energy Density Plasma Experiments* G. A. Wurden1, T. P. Intrator1, J. A. Sears1, T. Weber1, T. C. Grabowski2, J. H. Degnan2, D. J. Amdahl2, M. T. Domonkos2, E. L. Ruden2, W. M. White2, D. G. Gale3, M. R. Kostora3, J. McCullough3, W. Sommars3, M. H. Frese4, S. D. Frese4, J. F. Camacho4, S. K. Coffey4, G. F. Kiuttu5, S. R. Fueling6, B. S. Bauer6, A. G. Lynn7 1Physics Division, Los Alamos National Laboratory, Los Alamos, NM 87545, USA 2Directed Energy Directorate, Air Force Research Laboratory, Albuquerque, NM 87117, USA 3SAIC, Albuquerque, NM 87106, USA 4NumerEx, Albuquerque, NM 87106, USA 5VariTech Services, Albuquerque, NM 87112, USA 6University of Nevada, Reno, Reno, NV 89557, USA 7University of New Mexico, Albuquerque, NM 87131, USA 88 Technical Program Tuesday afternoon, July 10 17:00 4C-7 Status and Functional Capabilities of ITER EC H&CD System F. Gandini ITER Organization, 13115 Saint Paul lez Durance, France 17:15 4C-8 Indian Contribution to the Development of High Current Negative Ion Beams A. K. Chakraborty1, M. Bandyopadhyay2, M. Singh2 1DNB, ITER-India, Institute for Plasma Research, Ahmedabad, Gujarat, India 2DNB, ITER- India, Institute for Plasma Research, Ahmedabad, Gujarat, India Session 4D: High Energy Density Matter II & Nonequilibrium Plasma Applications II (oral) Tuesday, July 10 15:30-18:00, Sidlaw Auditorium (Level 3) Session Chair: David Neely, Central Laser Facility, STFC 15:30 4D-1 Interaction of Radiatively Cooled Plasma Jets with Collimated, Supersonic Gas Flows F. Suzuki-Vidal1, S. V. Lebdev1, J. Skidmore1, G. F. Swadling1, A. J. Harvey-Thompson1, M. Bocchi1, M. Bennett1, S. N. Bland1, G. Burdiak1, J. P. Chittenden1, P. de Grouchy1, G. N. Hall1, E. Khoory1, L. Pickworth1, S. Stafford1, L. Suttle1, K. Mahadevan2, K. Wilson-Elliot2, R. E. Madden2, A. Ciardi3, A. Frank4 1Imperial College London, London, United Kingdom 2Alameda Applied Sciences Corporation, San Leandro, CA, USA 3Observatoire de Paris, Paris, France 4Department of Physics and Astronomy, University of Rochester, Rochester, NY, USA 15:45 4D-2 Temporal evolution of High Mach Number Electrostatic Shocks in laboratory Plasma H. Ahmed1, M. E. Dieckmann1, D. Doria1, L. Romagnani2, G. Sarri1, R. Prasad1, K. Quinn1, E. Ianni1, M. Cerchez3, A. L. Giesecke3, M. Notley4, I. Kourakis1, M. Borghesi1, O. Willi3, D. Neely4 1Physics/CPP, Queen's University Belfast, Belfast, United Kingdom 2LULI, Ecole Polytechnique, Paris, France 3Institute for Laser and Plasma Physics, University of Dusseldorf, Germany, Düsseldorf, Germany 4Central Laser Facility, STFC Rutherford Appleton Laboratory, Oxfordshire, United Kingdom 16:00 4D-3 Extreme State of Water Produced by Converging Strong Shock Waves Generated Using Underwater Electrical Wire Array Explosion Y. E. Krasik, S. Efimov, L. Gilburd, D. Sheftman, O. Antonov, D. Shafer, V. T. Gurovich, G. Bazalitsky Physics Department, Technion, Haifa 32000, Israel 16:15 4D-4 Magnetic Field Topology Variations in Plasmas Generated by Radial Foils P. A. Gourdain, A. Y. Gorenstein, J. B. Greenly, D. A. Hammer, J. E. Kim, B. R. Kusse, S. A. Pikuz, P. C. Schrafel, C. E. Seyler, T. C. Shelkovenko Laboratory of Plasma Studies, Cornell University, Ithaca, NY, USA 16:30 4D-5 (invited) Nonthermal Bioplasma Characteristics of Reactive Radical Species’ Density & Electron Temperature and Their Interactions with Biological Cells E. H. Choi1, N. KAushik1, G. S. Park1, K. Y. Baik1, G. C. Kwon1, B. J. Park1, B. C. Park1, K. J. Lee1, R. Jung1, Y. G. Han1, G. Cho1, H. S. Uhm1, K. N. Kim2 89 Technical Program Tuesday afternoon, July 10 1Plasma Bioscience & Dispaly/Plasma Bioscience Research Center, Kwangwoon University, Seoul, Korea 2Research Center for Orofacial and Hard Tissue Regeneration, Yonsei University, Seoul, Korea 17:00 4D-6 Cold Gas Plasma as a Novel Approach to Improve Wear Performance of UHMWPE S. Perni1, M. G. Kong2, P. Prokopovich3,4 1Department of Chemistry, University College London, London, United Kingdom 2School of Electronic, Electrical and System Engineering, Loughborough University, Loughborough, United Kingdom 3School of Engineering, Cardiff University, Cardiff, United Kingdom 4School of Pharmacy and Pharmaceutical Sciences, Cardiff University, Cardiff, United Kingdom 17:15 4D-7 Microdischarge Arrays as Sources of Intense Ultraviolet Radiation. V. Martin, G. Bauville, V. Puech Universite Paris Sud, Laboratoire de Physique des Gaz et des Plasmas, Orsay, France 17:30 4D-8 Observation of Plasma Sheath Modulation in the Plasma Bipolar Junction Transistor T. J. Houlahan Jr., B. Li, C. J. Wagner, J. G. Eden Electrical and Computer Engineering, University of Illinois at Urbana-Champaign, Urbana, IL, USA 17:45 4D-9 Temporal Dynamics of Microdischarges in a Dielectric Barrier Plasma Actuator R. Barni, I. Biganzoli, C. Riccardi Dipartimento di Fisica G.Occhialini, Università Degli Studi di Milano-Bicocca, Milano, Italy Session 4E: Environmental and Industrial Applications II (oral) Tuesday, July 10 15:30-17:45, Pentland Auditorium (Level 3) Session Chair: Pierre Tardiveau, LPGP, Université Paris-Sud, Orsay, France 15:30 4E-1 Low Voltage Bubble Discharge in the Water Using Metal Clutched Porous Ceramic Electrode for Environmental Application S. Muradia, Y. Mochizuki, A. Ogino, M. Nagatsu Nanovision Technology, Shizuoka University, Hamamatsu, Japan 15:45 4E-2 Experimental and Computational Results of a Microwave Plasma/Catalyst System for CO2 Dissociation L. F. Spencer, A. D. Gallimore Applied Physics, University of Michigan, Ann Arbor, MI, USA 16:00 4E-3 Plasma Polymerized Allylamine Functionalization of Quartz Particles for the Removal of Anionic Water Contaminants K. L. Jarvis, P. Majewski Mawson Institute, University of South Australia, Mawson Lakes SA, Australia 16:15 4E-4 Plasma-Catalytic Dry Reforming of Methane in Dielectric Barrier Discharge: Synergistic Effect at Low Temperatures X. Tu, J. C. Whitehead School of Chemistry, The University of Manchester, Manchester, United Kingdom 90 Technical Program Tuesday afternoon, July 10 16:30 4E-5 Regeneration of Deactivated Au/TiO2 Nanocatalysts During CO Oxidation by Using in-Situ O2 and N2/O2 Plasma C. Shi, X. Li, S. Zhang, J. Liu, A. Zhu Dalian University of Technology, Dalian, China 16:45 4E-6 Modification of Adhesion Properties of Polymers via Atmospheric Plasma Exposures M. Nieto-Perez1, A. Norberto-Espinosa2, G. Ramos1, R. Avalos-Zuniga1 1Alternative Energy, CICATA-IPN Unidad Queretaro, Queretaro, Mexico 2UNAQ, Queretaro, Mexico 17:00 4E-7 Higher-Efficiency CO2 Dissociation Using Nonthermal Plasma Desorption M. Okubo1, H. Yamada1, T. Kuwahara1, T. Kuroki1, K. Yoshida2 1Mechanical Engineering, Osaka Prefecture University, Sakai, Japan 2Electrical and Electronics, Osaka Institute of Technology, Osaka, Japan 17:15 4E-8 Analysis of the Decomposition of Methylene Blue Dye under the Action of a Pulsed Dbd Plasma Jet J. E. Foster1, S. Gucker1, I. Blankson2, G. Adamovsky2 1Nuclear Engineering, University of Michigan, Ann Arbor, MI, USA 2NASA Glenn Research Center, Cleveland, OH, United State 17:30 4E-9 Comparing the Performance of Three Commercial Atmospheric Plasma Jets for the Activation of PET D. P. Dowling1, M. Donegan1, D. T. O'Neill1, V. Milosavljevic2 1School of Mechanical and Materials Engineering, University College Dublin, Dublin, Ireland 2NCPST, Dublin City University, Dublin, Ireland 91 Technical Program Wednesday morning, July 11 Session PL5: Plenary -- IEEE Marie Sklodowska-Curie Award Winner Wednesday, July 11 08:00-09:00, Pentland Suite (Level 3) Session Chairs: Brendan Godfrey, University of Maryland Peter Staecker, IEEE 8:00 PL5-1 Ecton Processes in a Vacuum Arc G. Mesyats Russian Academy of Scienсes, P. N. Lebedev Physics Institute, Moscow, Russia Session 5A: Computational Plasma Physics I (oral) Wednesday, July 11 09:30-12:00, Tinto Room (Level 0) Session Chair: Andrew J Christlieb, Michigan State University 9:30 5A-1 (invited) Conservative Semi-Lagrangian Vlasov Solvers on Mapped Meshes M. Mehrenberger1, M. Bergot1, H. Sellama1, E. Sonnendrucker1, V. Grandgirard2, G. Latu2 1IRMA, Universite de Strasbourg et CNRS, Strasbourg, France 2CEA/IRFM, St Paul les Durance, France 10:00 5A-2 Energy Transfer Processes in Burning Fusion Plasmas D. J. Edie1, J. Vorberger1, S. J. Rose2, D. O. Gericke1 1Department of Physics, University of Warwick, Coventry, United Kingdom 2Department of Physics, Imperial College London, London, United Kingdom 10:15 5A-3 High-Order Computational Method Applied to the Multi-Fluid Plasma Model U. Shumlak, R. Lilly, S. Miller, N. Reddell, E. Sousa University of Washington, Seattle, WA, USA 10:30 5A-4 Self-Consistent Modeling of the ITER RF Antenna, Edge Plasma, and Sheath Voltages D. Smithe, T. Austin, T. Jenkins, J. Loverich, P. Stoltz Tech-X Corporation, Boulder, CO, USA 10:45 5A-5 High order semi-Lagrangian methods for the kinetic description of plasmas Y. Guclu1, W. N. G. Hitchon2, S. -Y. Chen2 1Department of Mathematics, Michigan State University, East Lansing, MI, USA 2Department of Electrical and Computer Engineering, University of Wisconsin, Madison, WI, USA 11:00 5A-6 Moment Preserving Adaptive Particle Weighting Scheme for PIC Simulations J. -L. Cambier1, R. S. Martin2 1Spacecraft Propulsion Branch, Air Force Research Laboratory, Edwards AFB, USA 2ERC Inc, Air Force Research Laboratory, Edwards AFB, USA 11:15 5A-7 High Order Discontinuous Galerkin Methods for Vlasov Models of Plasma D. C. Seal, J. A. Rossmanith Mathematics, University of Wisconsin, Madison, Madison, WI, USA 11:30 5A-8 Investigations of a Virtual Cathode under Complex Conditions Using GridFree Treecode Method J. Krek1, N. Jelic2, J. Duhovnik1 92 Technical Program Wednesday morning, July 11 1LECAD laboratory, Faculty of Mechanical Engineering, University of Ljubljana, Ljubljana, Slovenia 2Institute for Theoretical Physics, University of Innsbruck, Association EURATOM-ÖAW, Innsbruck, Austria 11:45 5A-9 Parallel 2-D Simulation of Atmospheric- Pressure Plasma Jet Accelerated by a Temporal Multi-Scale Model K. -M. Lin, M. -H. Hu, C. -T. Hung Hung, J. -S. Wu* Mechanical Engineering, National Chiao Tung University, Hsinchu, Taiwan Session 5B: Plasma, Ion and Electron Sources (oral) Wednesday, July 11 09:30-12:00, Moorfoot Room (Level 0) Session Chairs: Joe W Kwan, Lawrence Berkeley National Lab Larry R Grisham, Princeton University Plasma Physics Laboratory 9:30 5B-1 (invited) Performance of Present High Charge State ECR Ion Sources and Challenges for Next Generation Sources C. M. Lyneis Nuclear Science Dvision, Lawrence Berkeley National Laboratory, Berkeley,CA, USA 10:00 5B-2 Overview of the Iter Negative-Ion-Based Neutral Beam Injector and Its Development L. R. Grisham1, D. Boilson2, H. P. L. de Esch2, J. Graceffa2, R. S. Hemsworth2, M. Kuriyama2, B. Schunke2, L. Svenson2, M. Tanaka2 1Plasma Physics Laboratory, Princeton University, Princeton, N. J., USA 2Neutral Beam Section, ITER Organization, St Paul lez Durance Cedex, France 10:15 5B-3 Ion-Ion Plasma in Propulsion and Processing Applications N. Oudini, A. Meige, P. Chabert, A. Aanesland Laboratoire de Physique des Plasmas (LPP), Ecole Polytechnique, 91128, Palaiseau, France 10:30 5B-4 Investigation and Modeling of Single Walled NanoTube Fiber Cathodes N. P. Lockwood1, S. B. Fairchild1, W. W. Tang1, M. A. Lange2 1Air Force Research Laboratory, Kirtland AFB, NM, USA 2TechFlow Scientific, Albuquerque, NM, USA 10:45 5B-5 Analysis of Carbon Nanotube Fibers for use as Field Emission Cathodes S. B. Fairchild1, N. P. Lockwood1, T. C. Back2, M. A. Lange3 1Air Force Research Laboratory, New Mexico, USA 2Universal Technology Corporation, Ohio, USA 3TechFlow Scientific, New Mexico, USA 11:00 5B-6 Controlled Porosity Reservoir Cathode and Photocathode Research L. Ives1, L. Falce1, G. Collins1, D. Marsden1, E. Montgomery2, P. O'Shea2, B. Riddick2 1Calabazas Creek Research, Inc., San Mateo, CA, USA 2Inst. for Research in Electronics and Appl. Physics, University of Maryland, College Park, MD, USA 11:15 5B-7 Two-Dimensional Arrays of Microwave-Generated Microplasmas A. R. Hoskinson, C. Wu, J. Hopwood Electrical and Computer Engineering, Tufts University, Medford, USA 93 Technical Program Wednesday morning, July 11 11:30 5B-8 Development of Atmospheric Pressure Microwave Plasma System and Its Applications W. A. Toor, A. U. Baig, N. Shafqat Systems Department, PIEAS, Islamabad, Pakistan 11:45 5B-9 Atmospheric Pressure Cold Argon/Oxygen Plasma Jet Assisted by Preionization of Syringe Needle Electrode C. Ren School of Physics and Optoelectronic Technology, Dalian University of Technology, Dalian, China Session 5C: Particle Acceleration with Lasers and Beams (oral) Wednesday, July 11 09:30-12:00, Fintry Auditorium (Level 3) Session Chair: Stuart Mangles, Imperial College London 9:30 5C-1 (invited) Electron Acceleration / Deceleration and Hard X-Ray Generation S. Karsch1,2, A. Popp2, J. Wenz2, K. Khrennikov2, S. -W. Chou1, M. Heigoldt2, A. Buck1, J. Xu1, L. Veisz1, F. Krausz1, S. Bajlekov3, N. Bourgeois3, S. Hooker3, S. Schleede4, K. Achterhold4, M. Bech4, P. Thibault4, F. Pfeiffer4 1MPI for Quantum Optics, Garching, Germany 2Faculty of Physics, Ludwig-Maximilians-Universität , München, Garching, Germany 3Clarendon Laboratory, University of Oxford, Oxford, UK 4E17, Technische Universität München, Garching, Germany 10:00 5C-2 Coupling Laser Driven Ion Beams to Accelerators - the Light Project M. Roth Inst. for Nuclear Physics, Technische Universitaet Darmstadt, Darmstadt, Germany 10:15 5C-3 Electron Acceleration in anti-Proton or Proton Driven Plasma Nonlinear Wakefields C. Huang1, W. B. Mori2, W. An2, W. Lu2, C. Joshi2, P. Muggli3 1Los Alamos National Laboratory, Los Alamos, NM, USA 2University of California Los Angeles, Los Angeles, CA, USA 3Max-Planck-Institut für Physik, Munich, Germany 10:30 5C-4 Plasma Cavity Enhanced Ion Acceleration G. G. Scott1,2, J. S. Green2, V. Bagnoud3, C. Brabetz3, D. C. Carroll2, D. A. MacLellan2, A. P. L. Robinson1, M. Roth4, C. Spindloe1, F. Wagner4, B. Zielbauer3, P. McKenna2, D. Neely1,2 1Central Laser Facility, STFC Rutherford Appleton Laboratory, Chilton, Didcot, United Kingdom 2Department of Physics SUPA, University of Strathclyde, Glasgow, United Kingdom 3PHELIX group, Gesellschaft für Schwerionenforschung, Darmstadt, Germany 4Fachbereich Physik, Technische Universität Darmstadt, Darmstadt, Germany 10:45 5C-5 Tapered Capillaries Applied in Laser Wakefield Acceleration M. Wiggins, S. Abuazoum, G. Vieux, G. H. Welsh, R. C. Issac, R. Islam, B. Ersfeld, E. Brunetti, S. Cipiccia, D. W. Grant, D. A. Jaroszynski SUPA, University of Strathclyde, Glasgow, United Kingdom 11:00 5C-6 Laser Driven Ion Source from Ultrathin Foils and Its Biomedical Application J. Bin1,2, W. Ma1, K. Allinger1, D. Kiefer1,2, P. Hilz1, S. Reinhardt1, W. Assmann1, D. Habs1,2, J. Schreiber1,2, G. A. Drexler3, A. A. Friedl3, N. Humble4, D. Michalski4, M. Molls4, T. E. Schmid4, O. Zlobinskaya4, J. J. Wilkens4 94 Technical Program Wednesday morning, July 11 1Department für Physik, Ludwig-Maximilians-Universität München, Garching b. Muenchen, Germany 2Max-Planck-Institut für Quantenoptik, Garching b. Muenchen, Germany 3Department of Radiation Oncology, Ludwig-Maximilians-Universität München, Munich, Germany 4Department of Radiation Oncology, Technische Universität München, Munich, Germany 11:15 5C-7 High-Energy Electron Beams Produced by a Laser Wakefield Accelerator* N. C. Lopes1, C. Russo1, R. A. Bendoyro1, J. Jiang1, J. M. Dias1, N. Lemos1, J. Vieira1, L. Silva1, M. Bloom2, J. Cole2, S. Kneip2, S. P. D. Mangles2, Z. Najmudin2, D. R. Symes3, P. Foster3, R. Pattathil3, S. Hawkes3, C. Hooker3, B. Parry3, O. Chekhlov3, Y. Tang3 1Grupo de Lasers e Plasmas, Instituto de Plasmas e Fusão Nuclear, Instituto Superior Técnico, Lisboa, Portugal 2Blackett Laboratory, Imperial College London, London, UK 3Central Laser Facility, STFC, Rutherford Appleton Laboratory, Didcot, UK 11:30 5C-8 Microbunching of Charged Partcile Beams Using Plasma Wakefield J. A. Holloway HEP, University College London, London, United Kingdom 11:45 5C-9 Generation of GeV Energy Electrons from Laser Wakefield Acceleration via Ionization Induced Injection M. Z. Mo1, A. Ali1, N. Naseri1, W. Rozmus1, R. Fedosejevs1, S. Fourmaux2, P. Lassonde2, J. C. Kieffer2, P. -E. Masson-Laborde3 1University of Alberta, Edmonton, AB, Canada 2INRS-EMT, University of Quebec, Varennes, Quebec, Canada 3CEA, DAM, Arpajon, France Session 5D: Nonequilibrium Plasma Applications III (oral) Wednesday, July 11 09:30-12:00, Sidlaw Auditorium (Level 3) Session Chair: Gregori Fridman, Drexel University 9:30 5D-1 (invited) Ultra-Short Pulsed Corona Discharges under Strong Overvoltage for Ignition and Air Treatment P. Tardiveau Laboratoire de Physique des Gaz et des Plasmas, Universite Paris-Sud, Orsay, France 10:00 5D-2 Enhancement of Radical Generation in a Round Helium AtmosphericPressure Plasma Jet by an On-Time Modulated Power Source C. -T. Liu, Y. -W. Yang, M. -H. Hu, K. -M. Lin, C. -J. Wu, J. -S. Wu* Mechanical Engineering, National Chiao Tung University, Hsinchu, Taiwan 10:15 5D-3 The Production and Measurement of Oh in Atmospheric Pressure Plasmas and Its Use for Applications P. Bruggeman, T. Verreycken, R. van der Horst, R. Mensink Applied Physics, Eindhoven University of Technology, Eindhoven, Netherlands 10:30 5D-4 Investigation of Nanosecond Repetitively Pulsed Discharges in Water Vapor for Hydrogen Production F. P. Sainct1,2, D. A. Lacoste1,2, M. J. Kirkpatrick3, E. Odic3, C. O. Laux1,2 95 Technical Program Wednesday morning, July 11 1Laboratoire E.M2.C. - CNRS UPR 288, Chatenay-Malabry, France Centrale Paris, Chatenay-Malabry, France 3Department of Power and Energy systems, SUPELEC - E3S, Gif-sur-Yvette, France 2Ecole 10:45 5D-5 Biomethane Reforming in DBD Nonequilibrium Plasma M. Dors, A. Berendt, J. Mizeraczyk Centre for Plasma and Laser Engineering, Institute of Fluid-Flow Machinery, Gdansk, Poland 11:00 5D-6 The Reactive Species Production and Ignition of the Hydrogen- Oxygen and Hydrogen-Air Mixtures by RF DBD I. Shkurenkov, Y. Mankelevich, T. Rakhimova Skobeltsyn Institute of Nuclear Physics, Moscow State University, Moscow, Russian Federation 11:15 5D-7 Low Energy Sparks in Dielectric Liquids R. Geiger, D. Staack Mechanical Engineering, Texas A&M University, College Station, TX, USA 11:30 5D-8 Mode Transition of Aqua-Plasma Generated by Micro Metal Tip Surrounded Dielectric Material in Electrolyte S. -Y. Yoon1, G. -H. Kim1, S. -H. Lee2, Y. -K. Hong2, J. -W. Hong3 1Department of Nuclear Engineering, Seoul National University, Plasma Application Laboratory, Seoul, South Korea 2Department of Rehabilitation, Korea University, Rehabilitation, Seoul, South Korea 3Department of Control and Instrumentation, Control and Instrumentation, Seoul, South Korea 11:45 5D-9 Bubble to Jetting Mode Transition Mechanism of Plasmas in Salt Solutions Sustained by Pulsed DC Power A. -H. Hsieh, H. -W. Chang, C. -C. Hsu Chemical Engineering, National Taiwan University, Taipei, Taiwan Session 5E: Plasma Thrusters (oral) Wednesday, July 11 09:30-12:00, Pentland Auditorium (Level 3) Session Chair: John E. Foster, University of Michigan 9:30 5E-1 (invited) Rotating Spoke Phenomena in Hall Thrusters Y. Raitses1, L. Ellision1, M. Griswold1, N. J. Fisch1, R. Schneider2, K. Matyash2, S. Mazouffre3, A. L. Lejeun3, S. Tsikata3 1Princeton Plasma Physics Laboratory, Princeton, NJ, USA 2Ernst-Moritz-Arndt University, Greifswald, Germany 3ICARE - CNRS, Orléans, France 10:00 5E-2 (invited) Two New Concepts in RF Plasma Sources for Space Travel. C. Charles Space Plasma, Power and Propulsion Laboratory, RSPE, The Australian National University, ACT0200, Australia 10:30 5E-3 Enhanced Thrust from a Plasma Thruster Due to Collisions with Neutrals A. Fruchtman, G. Makrinich H.I.T. - Holon Institute of Technology, Holon, Israel 96 Technical Program Wednesday morning, July 11 10:45 5E-4 An Electron Cyclotron Resonance Preionization Source for Pulsed Inductive Plasma Acceleration A. Hallock1, K. Polzin2, G. Emsellem3 1Mechanical and Aerospace Engineering, Princeton University, Princeton, NJ, USA 2Propulsion Research and Technologies, NASA MSFC, Huntsville, AL, USA 3Research and Development, The Elwing Company, Princeton, NJ, USA 11:00 5E-5 Research of Heaterless Thermionic Hollow Cathode for Micro Electric Propulsion Systems V. Vekselman1, Y. Krasik1, S. Gleizer1, A. Warshavsky2, L. Rabinovich2, A. Loyan3 1Physics Department, Technion, Haifa, Israel 2Rafael, Haifa, Israel 3National Aerospace University, Kharkiv, Ukraine 11:15 5E-6 Plasma Properties in the Far-Field Plume of a Radiofrequency Plasma Thruster A. Shabshelowitz, A. D. Gallimore Department of Aerospace Engineering, University of Michigan, Ann Arbor, MI, USA 11:30 5E-7 Development of a New Time-Resolved Laser-Induced Fluorescence Diagnostic C. J. Durot1, A. D. Gallimore2 1Applied Physics, University of Michigan, Ann Arbor, MI, USA 2Aerospace Engineering, University of Michigan, Ann Arbor, MI, USA 11:45 5E-8 Micro-Cathode Thruster for Cube Satellite Propulsion T. Zhuang, A. Shashurin, M. Keidar Department of Mechanical and Aerospace Engineering, The George Washington University, DC, USA 97 Technical Program Wednesday afternoon, July 11 Session PL6: Plenary 6 Wednesday, July 11 13:00-14:00, Pentland Suite (Level 3) Session Chair: John Luginsland, AFOSR 13:00 PL6-1 Transient Plasma: Energy, Engines, and Aerospace Applications P. T. Vernier, C. Jiang University of Southern California, Los Angeles, CA, USA Session 3P: Vacuum Microelectronics (poster session) Wednesday, July 11 14:00-15:15, Cromdale Hall (Level -2) Session Chair: Claudio Paoloni, University of Rome Tor Vergata, Italy 3P-1 Investigation of Current Transmission Through Insulating Funnels via Secondary Electron Emission T. Rowe, M. Pearlman, J. Browning Electrical and Computer Engineering, Boise State University, Boise, ID, USA 3P-2 Narrow Corrugated Waveguide BWO for THz Signal Generation M. Mineo, C. Paoloni Electronic Engineering, University of Rome Tor Vergata, Italy, Rome, Italy 3P-3 Parametric Survey of Space-Charge Modulations in Vacuum Microdiodes A. Valfells1, P. Jonsson1, A. Manolescu1, A. Pedersen2 1Reykjavik University, Reykjavik, Iceland 2University of Iceland, Reykjavik, Iceland 3P-4 Study of Geometrical Tolerances of an Electron Gun for THz Vacuum Tube G. Ulisse, F. Brunetti, A. Di Carlo University of Rome "Tor Vergata", Rome, Italy Session 3P: Dusty plasmas (poster session ~ 2) Wednesday, July 11 14:00-15:15, Cromdale Hall (Level -2) Session Chairs: Dmitry Samsonov, The University of Liverpool Celine Durniak, The University of Liverpool 3P-5 Growth of Nanometer Sized Particles in a Dc Discharge L. Woerner1,2, J. Berndt2, E. Kovacevic2, H. Thomas1, M. Thoma1, L. Boufendi2, G. Morfill1 1Max Planck Institute for Extraterrestrial Physics, Garching, Germany 2Universite d'Orleans, GREMI, Orleans, France 3P-6 Dislocations Dynamics During Plastic Deformations of Complex Plasma Crystals C. Durniak, D. Samsonov, J. Ralph Electrical Engineering and Electronics, The University of Liverpool, Liverpool, United Kingdom 3P-7 Complex Plasmas — a Kinetic View on Thermo- and Hydro-Dynamics R. Sütterlin, R. Heidemann, S. Zhdanov Max-Planck-Institute for Extraterrestrial Physics, Garching, Germany 3P-8 Kelvin-Helmholtz Instability in a Partially Ionized Dusty Plasma N. Kumar1, V. Kumar1, H. Sikka2, A. Kumar3 98 Technical Program Wednesday afternoon, July 11 1Department of Mathematics, M.M.H. College, Ghaziabad, Ghaziabad, Uttar Pradesh, India of Mathematics, Maharaja Agrasen Institute of Technology, Delhi, Delhi, India 3Department of Applied Sciences, Vishveshwarya Institute of Engineering and Technology, G. B.Nagar, Uttar Pradesh, India 2Department 3P-9 Instabilities in a Complex DC Plasma M. Kretschmer1, T. Antonova1, S. Zhdanov1, M. Thoma1, H. Thomas1, G. Morfill1, A. Usachev2 1Max-Planck-Institut für Extraterrestrische Physik, Garching, Germany 2Joint Institute for High Temperatures, Moscow, Russia 3P-10 First Observation of Slow Dynamical Process in a Quasi-2d Binary Complex Plasma near Glass Transition C. -R. Du, A. V. Ivlev, V. Nosenko, H. M. Thomas, G. E. Morfill Max Planck Institute for Extraterrestrial Physics, Garching, Germany 3P-11 Nonlinear Wave Propagation in Strongly Correlated Dusty Plasmas N. Chakrabarti1, S. Ghosh2 1Plasma Physics, Saha Inst. of Nuclear Physics, Kolkata, India 2Applied Math Department, University of Kolkata, Kolkata, India 3P-12 Experimental Study of Dust Interactions in Plasma of RF Discharge E. A. Lisin, O. S. Vaulina, O. F. Petrov, V. E. Fortov Joint Institute for High Temperatures, Russian Academy of Sciences, Moscow, Russian Federation 3P-13 Chain-like Dust Particles Structure Formation and Diagnostics (Numerical Simulation) E. A. Lisin, I. I. Lisina, O. S. Vaulina Joint Institute for High Temperatures, Russian Academy of Sciences, Moscow, Russian Federation 3P-14 3D Diagnostic of Complex Plasmas E. Hall, D. Samsonov Department Electrical Engineering and Electronics, University Of Liverpool, Liverpool, United Kingdom 3P-15 Nucleation of Nanodiamond at Atmospheric Pressure via Microplasma Synthesis A. Kumar, P. A. Lin, A. Xue, R. M. Sankaran Chemical Engineering, Case Western Reserve University, Cleveland, Ohio, USA 3P-16 Phase Transitions in 2D Plasma Crystals Driven by Tunable Interactions P. C. Brandt, A. V. Ivlev, G. E. Morfill Max-Planck-Institut für Extraterrestrische Physik (MPE), Garching, Germany 3P-17 Small Amplitude Solitary Structures and Double Layers in a Dusty Plasma with Superthermal Electrons N. S. Saini, S. Shalini Department of Physics, Guru Nanak Dev University, Amritsar, Punjab, India 3P-18 Evolution of Dust Void in Cryogenic Plasma A. A. Samarian1, M. Chikasue2, O. Ishihara2 1School of Physics, University of Sydney, Sydney, Australia 2Faculty of Engineering, Yokohama National University, Yokohama, Japan 99 Technical Program Wednesday afternoon, July 11 Session 3P: Computational Plasma Physics (poster session ~ 2) Wednesday, July 11 14:00-15:15, Cromdale Hall (Level -2) Session Chair: Andrew J Christlieb, Michigan State University 3P-19 Spectral-Kinetic Simulation of the Multipole Resonance Probe W. Dobrygin, D. Szeremley, J. Oberrath, D. Eremin, T. Mussenbrock, R. P. Brinkmann Theoretical Electrical Engineering, Ruhr University, Bochum, Germany 3P-20 Delivering Fluxes of Reactive Species of Cold Atmospheric-Pressure Plasmas Through the Electrode Sheath Region A. Yang1, X. Wang1, M. Rong1, D. Liu1, X. Wang1, F. Iza2, M. Kong2 1School of Electrical Engineering, Xi'an Jiaotong University, Xi'an, Shaanxi, China 2School of Electronic, Electrical and System Engineering, Loughborough University, Leicestershire, UK 3P-21 Computational Study of Mutual Influence of Multiple Plasma Sheaths J. Hromadka, T. Ibehej, R. Hrach Department of Surface and Plasma Science, Charles University, Faculty of Mathematics and Physics, Prague, Czech Republic 3P-22 Numerical Simulations for the off-Axis Electric Potential Created by a Biased Disk Electrode Immersed in a Cold Diffusion Plasma O. Niculescu1, M. N. Danila2 1Department of Physics, Gh. Asachi Technical University of Iasi, Iasi, Romania 2Department of Physics, Al. I Cuza University of Iasi, Iasi, Romania 3P-23 A Self-Consistent Kinetic Global Model for Low Pressure Plasma Sources Y. Guclu1, W. N. G. Hitchon2 1Department of Mathematics, Michigan State University, East Lansing, MI, USA 2Department of Electrical and Computer Engineering, University of Wisconsin, Madison, WI, USA 3P-24 Fluid Simulation of the Electromagnetic Effects and the Phase Shift Effect in Ar/CF4 Capacitively Coupled Plasmas Y. -R. Zhang1, A. Bogaerts2, Y. -N. Wang1 1School of Physics and Optoelectronic Engineering, Dalian University of Technology, Dalian, China 2Department of Chemistry, University of Antwerp, Antwerp, Belgium 3P-25 Simulation Study of Stochastic Heating in Dual Frequency Capacitively Coupled Plasma Discharges S. Sharma, M. M. Turner National Centre for Plasma Science and Technology, Dublin City University, Dublin 9, Ireland 3P-26 Simulation of Using Background Plasma to Neutralize Charged Particle Thrusters on Nanospacecraft D. C. Liaw, T. M. Liu, B. E. Gilchrist University of Michigan, Ann Arbor, MI, USA 3P-27 Simulation of Plasma Treatment of Uneven Substrates in Magnetic Field T. Ibehej, V. Hruby, R. Hrach Department of Surface and Plasma Science, Charles University, Prague, Czech Republic 100 Technical Program Wednesday afternoon, July 11 3P-28 Plasma for Plasmonics W. S. Koh1, S. -H. Chen2, L. -K. Ang3 1Institute of High Performance Computing, Singapore, Singapore, Singapore 2National Central University, Jhongli, Taiwan 3Singapore University of Technology and Design, Singapore, Singapore 3P-29 A Fast-Track Path to Kinetic Simulations of Electromagnetic Processes in Nonrelativistic Quantum Plasmas Y. O. Tyshetskiy, S. V. Vladimirov, R. Kompaneets School of Physics, University of Sydney, NSW, Australia 3P-30 PIC/MC Simulation of Pulsed Discharge in Hydrogen W. Jiang1, X. -W. Hu1, H. -Y. Wang2, Q. -Z. Sun3, W. -P. Xie3, X. Xu4, Y. -N. Wang4 1School of Physics, Huazhong University of Science and Technology, Wuhan, China 2Depart of Physics, Anshan Normal University, Anshan, China 3Institute of Fluid Physics, China Academy of Engineering Physics, Mianyang, China 4School of Physics and Optoelectronic Technology, Dalian University of Technology, Dalian, China 3P-31 Modeling and Simulation of Pulsed Power Magnetron U. M. Pal1, S. B. Gupta2, N. P. Vaghela2, K. Kalaria2, S. Mukherjee2 1Electrical Department, Indian Institute of Technology Bombay, Maharashtra, India 2Facilitation Centre for Industrial Plasma Technologies, Institute for Plasma Research, Gandhinagar, Gujarat, India 3P-32 Numerical Simulations of the Anomalous Doppler Resonance Using Pic Code Vorpal R. Bryson1, D. C. Speirs1, M. King1, I. Vorgul2, R. A. Cairns2, A. D. R. Phelps1, R. Bingham3, S. L. McConville1, K. M. Gillespie1, K. Ronald1 1SUPA Department of Physics, University of Strathclyde, Glasgow, United Kingdom 2School of Mathematics and Statistics, University of St Andrews, St Andrews, United Kingdom 3STFC Rutherford Appleton Laboratory, Oxford, United Kingdom 3P-33 Numerical Particle Heating and Diffusion Correlated to Interpolation-Induced Divergence in a Static Magnetic Field for PIC Simulations M. P. Aldan1, J. P. Verboncoeur2 1Nuclear Engineering, University of California, Berkeley, Berkeley, CA, USA 2Electrical and Computer Engineering, Michigan State University, East Lansing, MI, USA 3P-34 An External Circuit Model for Electromagnetic Particle-in-Cell Simulations M. C. Lin, C. D. Zhou, D. N. Smithe Tech-X Corporation, Boulder, CO, USA 3P-35 Analytic Sources Using Polynomial Shaped Particles in the Ltp Method R. H. Jackson1, J. P. Verboncoeur2 1Calabazas Creek Research, San Mateo, CA, USA 2ECE Department, Michigan State University, East Lansing, MI, USA 3P-36 Time-Dependent Space-Charge Limited Electron Flow Y. Liu1, L. -K. Ang2,1 101 Technical Program Wednesday afternoon, July 11 1School of Electronical and Electronic Engineering/Division Micro-Electronics, Nanyang Technological University, Singapore, Singapore 2Singapore University of Technology and Design, Singapore, Singapore Session 3P: THz Sources & Applications (poster session) Wednesday, July 11 14:00-15:15, Cromdale Hall (Level -2) Session Chair: Wenlong He, Department of Physics SUPA, University of Strathclyde, Glasgow, UK 3P-37 Motion-Induced Radiation of Charged Particles in Curved Electromagnetic Space Y. Liu1, L. -K. Ang2,1 1Division MicroElectronics/Sch. EEE, Nanyang Technological University, Singapore, Singapore 2bSingapore University of Technology and Design, Singapore, Singapore 3P-38 Asymmetric Immersed Pole Undulators R. H. Jackson, M. E. Read, T. Bui, L. Ives Calabazas Creek Research, San Mateo, CA, USA 3P-39 High Frequency Radiation Generation Using Pseudospark-Sourced E-Beam H. Yin1, A. W. Cross1, D. Bowes1, W. He1, K. Ronald1, A. D. R. Phelps1, D. Li2, X. Chen2 1Physics, University of Strathclyde, Glasgow, UK 2Electronic Engineering and Computer Science, Queen Mary, University of London, London, UK 3P-40 Sub-Mm Wave Emission in Beam-Plasma Experiments on GOL-3 Facility A. V. Arzhannikov1,2, A. V. Burdakov1,3, V. S. Burmasov1,2, I. A. Ivanov1,2, M. V. Ivantsivsky1,3, S. A. Kuznetsov1,2, K. I. Mekler1, S. S. Popov1,2, S. V. Polosatkin1,2, V. V. Postupaev1,2, A. F. Rovenskikh1, S. L. Sinitsky1,2, V. F. Sklyarov1,3, M. K. A. Thumm2 1Siberian Brunch of Russian Academy of Science, Budker Institute of Nuclear Physics, Novosibirsk, Russian Federation 2Ministry of Education and Science, Novosibirsk State University, Novosibirsk, Russian Federation 3Ministry of Education and Science, Novosibirsk State Technical University, Novosibirsk, Russian Federation 3P-41 RF Structure Design for W-Band Folded Waveguide Twt I. Rathi MWT Div., CEERI, Pilani, Rajasthan, India 3P-42 Experiment Study on Terahertz Wave Transmission Through Plasma J. Sun Science and Technology on Electromagnetic Scattering Laboratory, Beijing, China 3P-43 Optically-Controlled Plasma Switch for Integrated Terahertz Applications E. Episkopou, S. Papantonis, S. Lucyszyn Centre for Terahertz Science and Engineering, Imperial College London, London, United Kingdom 3P-44 Terahertz Conductivity of Rough Metallic Surfaces M. P. Kirley, N. Carlsson, B. B. Yang, J. H. Booske Electrical and Computer Engineering, University of Wisconsin-Madison, Madison, WI, USA 3P-45 A High Directivity Broadband Corrugated Horn for W-Band Gyro-Devices P. McElhinney, C. Donaldson, W. He, L. Zhang, K. Ronald, A. D. R. Phelps, A. W. Cross Department of Physics, University of Strathclyde, Glasgow, United Kingdom 102 Technical Program Wednesday afternoon, July 11 3P-46 Observation of Copious Emission at the Fundamental Frequency by a SmithPurcell Free-Electron Laser with Sidewalls J. Gardelle1, P. Modin1, J. T. Donohue2 1CESTA, CEA, Le Barp, France 2CENBG, CNRS, Gradignan, France Session 3P: Plasma, Ion and Electron Sources (poster session) Wednesday, July 11 14:00-15:15, Cromdale Hall (Level -2) Session Chair: Joe W Kwan, Lawrence Berkeley National Lab 3P-47 Emission, Propagation and Focusing of an Intense Electron Beam Towards a Target: Comparison Between Simulations and Experiments. J. Gardelle, P. Modin, K. Pepitone CESTA, CEA, Le Barp, France 3P-48 Influence of Ion Effects on a Space Charge Limited Field Emission Flow: from NonRelativistic to Ultra-Relativistic Regimes M. C. Lin1, P. S. Lu1, P. C. Chang1, J. P. Verboncoeur2 1NSSL, Fu Jen Catholic University, New Taipei City, Taiwan 2PTSG, University of California, Berkeley, CA 94270, USA 3P-49 Experimental Study of Hybrid Capacitively/inductively Coupled Discharges F. Gao School of Physics and Optoelectronic Technology, Dalian University of Technology, Dalian, China 3P-50 Laser Photo-Detachment Measurements in the ECR-Driven H- Negative Ion Source Prometheus I S. Aleiferis1, P. Svarnas1, S. Béchu2, M. Bacal3, A. Lacoste2 1Electrical and Computer Engineering/High Voltage Laboratory, University of Patras, Rion,Patras, Greece 2LPSC, Grenoble, France 3LPP, Ecole Polytechnique, France 3P-51 Evaluation and Modeling of a Hydrogen ECRIS for Injection into Cyclotrons M. Artz, R. Torti, T. Antaya, L. Bromberg Plasma Science Fusion Center/ Technology and Engineering Division, MIT, Cambridge, MA, USA 3P-52 Design and Characterization of an Ion Source for Neutron Production E. A. Baxter, S. D. Kovaleski, K. M. Olson, B. T. Hutsel, B. H. Kim, J. W. Kwon Electrical Engineering, University of Missouri-Columbia, Columbia, MO, USA 3P-53 Compact Neutron Generator Driven with a High-Voltage Piezoelectric Transformer B. B. Gall1, S. D. Kovaleski1, J. A. VanGordon1, P. Norgard1, E. A. Baxter1, B. Kim1, J. Kwon1, G. E. Dale2 1Electrical and Computer Engineering, University of Missouri, Columbia, MO, USA 2High Power Electrodynamics, Los Alamos National Laboratory, Los Alamos, NM, USA 3P-54 Ion Beam Charcteristics of Liquid Metal Ion Source with a Suppressor for the Focused Ion Beam System B. K. Min, H. J. Oh, S. O. Kang, E. H. Choi 103 Technical Program Wednesday afternoon, July 11 Kwangwoon University, Seoul, South Korea 3P-55 Compact Electron Beam Accelerator Driven by a High-Voltage Piezoelectric Transformer B. B. Gall1, S. D. Kovaleski1, J. A. VanGordon1, P. Norgard1, B. Kim1, J. Kwon1, G. E. Dale2 1Electrical and Computer Engineering, University of Missouri, Columbia, MO, USA 2High Power Electrodynamics, Los Alamos National Laboratory, Los Alamos, NM, USA 3P-56 Investigation of the Blurring Effects of Anomalous X-Ray Emissions from a RodPinch Diode M. J. Berninger, A. Diaz, S. Lutz National Security Technologies, LLC., Las Vegas, NV, USA 3P-57 Development of a Miniature Microwave-Multicusp Plasma Source as an Electron Neutralizer for Space Propulsion I. Dey, N. Yamamoto, H. Nakashima Department of Advanced Energy Engineering Science, Kyushu University, Kasuga Kouen 6-1, Kasuga City, Japan 3P-58 Atmospheric Pressure Plasma Jet on Floating Electrode in Air Using Half Bridge Resonant Converter V. Jain1, A. Visani1, R. Srinivasan1, S. Mukherjee1, V. Agarwal2 1FCIPT, Institute for Plasma Research, Gandhinagar, India 2PEPS, Indian Institute of Technology, Bombay, India 3P-59 Effect of Gas Injection Mixing on Reactive Species Transport in an Atmospheric Pressure Cold Plasma Jet W. S. Kang, M. Hur, J. -O. Lee, Y. -H. Song Korea Institute of Machinery & Materials, Daejeon, Republic of Korea 3P-60 Effect of Ambient Plasma Properties on Anode Spot in an Inductively Coupled Plasma Y. -S. Park, Y. Lee, D. -H. Choi, K. -J. Chung, Y. -S. Hwang Nuclear Engineering, Seoul National University, Seoul, South Korea 3P-61 Design and Implementation of an Inductively Coupled Plasma Source and Comparison the Simulation Results with the Measurements N. Delkash Rudsary, F. Abbasi Davani Radiation Department of Shahid Behesahti University, Tehran, Tehran, Iran 3P-62 Description of Plasma Bullet in Plasma Jet in Terms of Wave-Packet of Plasma Diffusion G. Cho, E. -H. Choi, H. S. Uhm Department of Electrophysics, Kwangwoon University, Seoul, South Korea 3P-63 Study of P-Type Wafer Doping for Solar Cell Using Atmospheric Pressure Micro Plasma. M. Yun1, I. Cho1, T. Jo1, D. Kim1, I. Kim2, E. Choi1, B. Jeon1, G. Cho1, G. Kwon1 1Electrophysics, Kwangwoon University, Seoul, South Korea 2Chemistry, Kwangwoon University, Seoul, South Korea 104 Technical Program Wednesday afternoon, July 11 3P-64 The Amplitude and Current Pulse Duration of a Supershort Avalanche Electron Beam in Air at Atmospheric Pressure E. A. Sosnin, I. D. Kostyrya, D. V. Rybka, V. F. Tarasenko Optical Radiarion Laboratory, High Current Electronics Institute SB RAS, Tomsk, Russian Federation Session 3P: Plasma Medicine (poster session ~ 2) Wednesday, July 11 14:00-15:15, Cromdale Hall (Level -2) Session Chair: XinPei Lu, Huazhong University of Science and Technology, China 3P-65 Exciplex Lamps as Instrument for Photobiological Researches E. A. Sosnin1, V. F. Tarasenko1, O. S. Zhdanova2, E. P. Krasnozhenov2 1Optical Radiation Laboratory, High Current Electronics Institute SB RAS, Tomsk, Russian Federation 2Microbiology subdepartment, Siberian State Medical University, Tomsk, Russian Federation 3P-66 Assessing Cellular DNA Damage from the Helium Plasma Needle P. R. Morales-Ramirez, V. Cruz-Vallejo, R. Pena-Eguiluz, R. Lopez-Callejas, R. Valencia-Alvarado, A. Mercado-Cabrera, S. R. Barocio, A. E. Munoz-Castro, B. G. Rodriguez-Mendez Basic Science, Instituto Nacional de Investigaciones Nucleares, Mexico, D.F., Mexico 3P-67 The Application of Non-Thermal Atmospheric Pressure Plama Jet on Titanium Implant for Improved Hydrophilicity J. -S. Kwon1, Y. H. Kim2, E. H. Choi2, K. -N. Kim1 1Yonsei University College of Dentistry, Research Center for Orofacial Hard Tissue Regeneration, Seoul, South Korea 2Kwangwoon University, Plasma Bioscience Research Center, Seoul, South Korea 3P-68 Nitrogen Plasma Modification of Cysteine for Bioapplications I. Motrescu1, M. A. Ciolan2, A. Ogino2, M. Nagatsu2 1Research Institute of Electronics, Shizuoka University, Hamamasu, Shizouka, Japan 2Graduate School of Science and Technology, Shizuoka University, Hamamasu, Shizouka, Japan 3P-69 Influence of Pulse Width on the Creation of Ions in an Atmospheric-Pressure Plasma Jet J. -S. Oh, J. L. Walsh, J. W. Bradley Electrical Engineering & Electronics, University of Liverpool, Liverpool, United Kingdom 3P-70 Effects Of Tooth Whitening By A Cold Atmospheric Nitrogen Plasma H. -S. Choi1, J. -S. Kwon1, E. -M. Yoo1, E. H. Choi2, K. -M. Kim1, K. -N. Kim1 1Department and Research Institute of Dental Biomaterials and Bioengineering, Younsei University College of Dentistry, Seoul, South Korea 2Plasma Bioscience Research Center, Kwangwoon University, Seoul, South Korea 3P-71 Multiphysics Modeling of Gas Plasma-Based Wound Healing Process Y. Sakiyama1, M. Orazov1, D. Graves1, G. Morfill2 1University of California, Berkeley, Berkeley, CA, USA 2Max Planck Institute for Extraterrestrial Physics, Garching, Germany 3P-72 Control of Gas and Aqueous Phase Reactive Chemical Species by Air Surface Micro-Discharge 105 Technical Program Wednesday afternoon, July 11 Y. Sakiyama, M. Pavlovich, D. Clark, D. Graves University of California, Berkeley, Berkeley, CA, USA 3P-73 The Collaboration of anti-Oxidative Systems in Yeast Cells after Cold Plasma Treatment H. Feng1, Y. Liang1, R. Ma2, F. Li2, Q. Zhang2, W. Zhu3, K. H. Berker4, J. Fang2, J. Zhang2 1College of Engineering, Peking University, Beijing, China 2Academy for Advanced Interdisciplinary Studies, Peking University, Beijing, China 3Department of Applied Science and Technology, Saint Peter’s College, New Jersey, USA 4Department of Applied Physics, Polytechnic Institute of New York University, New York, USA 3P-74 Enhanced Funtion of Human Periodontal Ligament Cells Cultured on Nanoporous Titanium Surfaces S. Kim1, S. -H. Uhm1, D. -H. Song1, J. -G. Han2, C. -K. Kim1, K. -M. Kim1, K. -N. Kim1 1Department and Research Institute of Dental Biomaterials and Bioengineering, College of Dentistry, Yonsei University, Seoul, South Korea 2Center for Advanced Plasma Surface Technology, Sungkyunkwan University, Suwon, South Korea 3P-75 Single Molecule Measurement of Large DNA Induced Damage of Non-Thermal Plasma-Treated Water S. Cunningham1, T. Nakajima2, H. Uda2, H. Kurita2, H. Yasuda2, K. Takashima2, A. Mizuno2 1Department of Electrical Engineering, University of Glasgow, Glasgow, Scotland, United Kingdom 2Department of Environmental and Life Sciences, Toyohashi University of Technology, Toyohashi, Aichi, Japan 3P-76 Deciphering Non Thermal Plasma - Human Cell Interaction Using the Proteomics Approach K. Wende1, A. Barton1, U. Lindequist2, A. Kramer3, K. -D. Weltmann4, K. Masur1 1ZIK plasmatis, INP Greifswald, Greifswald, Germany 2Institute for Pharmacy, EMA University of Greifswald, Greifswald, Germany 3Institute for Hygiene, EMA University of Greifswald, Greifswald, Germany 4INP Greifswald, Greifswald, Germany 3P-77 Bactericidal Effect in Different Gas Compositions Using Surface Micro-Discharge (SMD) Plasma J. Jeon, Y. Li, T. Shimizu, J. Zimmermann, G. Morfill Max Planck Institute for Extraterrestrial Physics, Garching, Germany 3P-78 Effect of a Non-Thermal Atmospheric Pressure Plasma Effluent on Liquid Chemistry and Cellular Response A. R. Gibson1, W. G. Graham1, D. O'Connell1,2, H. McCarthy3, A. A. Ali3 1Centre for Plasma Physics, Queen's University Belfast, Belfast, United Kingdom 2York Plasma Institute, University of York, York, United Kingdom 3McClay Research Centre, Queen's University Belfast, Belfast, United Kingdom 3P-79 Comparison of Direct DBD Treatment and DBD Exhaust Gas Treatment of Liquids K. Oehmigen, R. Brandenburg, K. -D. Weltmann, T. von Woedtke INP - Leibniz Institute for Plasma Science and Technology e. V., Greifswald, Germany 106 Technical Program Wednesday afternoon, July 11 3P-80 Plasma Based Technologies for Reprocessing of Medical Devices, Endoscopes and Catheters U. Schnabel, M. Polak, J. Winter, T. von Woedtke, J. Ehlbeck Leibniz Institute for Plasma Science and Technology, Greifswald, Germany 3P-81 Tooth Whitening by a Direct-Current Cold Atmospheric-Pressure Air Plasma Micro Jet Assisted with a Gel Containing No H2O2 G. Wang1, H. Feng1, J. Zhang1, J. Fang1, J. Pan2, X. Yang3, G. Ye3, J. Wang3, W. Zhu4 1Academy for Advanced Interdisciplinary Studies, Peking University, Beijing, China 2Peking University School of Stomatology, Beijing, China 3School of Stomatology, Lan Zhou University, Lan Zhou, China 4Saint Peter’s College, New Jersey, USA 3P-82 Reactive Oxygen Species in a Non-Thermal Plasma Microjet and Water System: Generation, Conversion, and Contributions to Bacteria Inactivation - An Analysis by Electron Spin Resonance Spectroscopy R. Ma1, H. Wu2, P. Sun2, H. Feng2, H. Zhou3, R. Wang1, Y. Liang2, J. Lu4, W. Zhu5, J. Zhang1, J. Fang1 1Academy for Advanced Interdisciplinary Studies, Peking University, Beijing, China 2College of Engineering, Peking University, Beijing, China 3West China College of Stomatology, Sichuan University, Chengdu, China 4National Research Laboratories of Natural and Biomimetic Drugs, Beijing Medical University, Beijng, China 5Department of Applied Science and Technology and Center, Saint Peter's College, New Jersey, USA 3P-83 Cold Plasma Therapy for Enterococcus Faecalis Biofilm Infected Tooth Root Canal in Vitro K. Sun1, J. Pan2, J. Wang3, J. Zhang1, J. Fang1, D. W. Zhu4 1Academy for Advanced Interdisciplinary Studies, Peking Uinversity, BeiJing, China 2Peking University School of Stomatology, Peking Uinversity, Beijing, China 3School of Stomatology, Lan Zhou University, LanZhou, China 4Department of Applied Science and Technology and Center, Saint Peter’s, New Jersey, USA 3P-84 Solution Chemistry Induced by He+O2 Gas Penetration and Chemical Reaction of Antibacterial Species D. Liu1, C. Chen1, A. Yang1, X. Wang1, M. Rong1, F. Iza2, M. Kong2 1School of Electrical Engineering, Xi'an Jiaotong University, Xi'an, Shaanxi, China 2School of Electronic, Electrical and System Engineering, Loughborough University, Leicestershire, UK 3P-85 Non-Thermal Plasma Treated Water as Mouthwash: Evaluation with Streptococcus Mutans Biofilm on Tooth Surface K. Sun1, J. Pan2, J. Wang3, J. Zhang1, J. Fang1 1Academy for Advanced Interdisciplinary Studies, Peking Uinversity, BeiJing, China 2Peking University School of Stomatology, Peking Uinversity, BeiJing, China 3School of Stomatology, Lan Zhou University, LanZhou, China 3P-86 Evaluation of Sterilization Efficiency in Cold Plasma Treatment of Packing-Sheets E. V. Sysolyatina1, E. N. Kobzev2, G. V. Kireev2, Y. A. Rakitsky2, V. P. Kholodenko2, V. A. Chugunov2, N. I. Trushkin3, M. E. Grushin3, A. V. Petryakov3, Y. S. Akishev3 107 Technical Program Wednesday afternoon, July 11 1Gamaleya Research Institute of Epidemiology and Microbiology, Moscow, Russian Federation for Applied Microbiology and Biotechnology, Obolensk, Russian Federation 3SRC RF TRINITI, Troitsk, Russian Federation 2SRC 3P-87 Modeling of Inactivation of Surface Borne Microorganisms Occuring on Seeds by Cold Atmospheric Plasma (CAP) A. Mitra, T. Shimizu, Y. -F. Li, J. L. Zimmermann, G. E. Morfill Max-Planck Institut für Extraterrestrische Physik, D-85741 Garching, Germany, Garching, Germany 3P-88 Amine Functional Groups Incorporation for Improving Biocompatibility Using Nitrogen-Based Atmospheric Pressure Plasma Jet Treatment Y. -W. Yang1, C. -T. Liu1, G. -C. Liao1, M. -H. M. -H. Chiang1, C. -C. Wen2, J. -Y. Wu2, J. -S. Wu*1 1Mechanical Engineering, National Chiao Tung University, Hsinchu, Taiwan 2BioIndustry Technology, Da Yeh University, Changhua, Taiwan Session 3P: Nonequilibrium Plasma Applications (poster session ~ 2) Wednesday, July 11 14:00-15:15, Cromdale Hall (Level -2) Session Chair: Vincent Puech, University Paris-Sud 11 3P-89 Coating of Silver Nanoparticles on the Polymeric Film by Corona Discharge A. Sadeghnejad, A. Aroujalian, A. Raisi, S. Fazel Food Process Engineering and Biotechnology Research Center, Amirkabir University of Technology, Tehran, Iran 3P-90 Characterization of Two Atmospheric Pressure Plasma Sources on Optical Emission Spectrum S. Yang1, J. Tang2 1Alabama A&M University, Normal, AL, USA 2Hunan First Normal College, Changsha, Hunan, China 3P-91 Development of Hydrophobic Silica Powders Using Plasma Polymerization Technology B. AkhavanTabatabae1,2, K. Jarvis2, P. Majewski1,2 1Mawson Institute, University of South Australia, Adelaide, SA, Australia 2School of Advanced Manufacturing and Mechanical Engineering, University of South Australia, Adelaide, SA, Australia 3P-92 Film Deposition Using a Non-Thermal Microwave-Generated Microplasma at Atmospheric Pressure A. R. Hoskinson, M. Grunde, M. Nobel, J. Hopwood Electrical and Computer Engineering, Tufts University, Medford, USA 3P-93 Facile Construction of Crystalline Films by Atmospheric Non-Thermal Plasma Chemical Vapor Deposition D. X. Wang, Q. Y. Yang, Y. Guo, K. Ding, Y. C. Shi, J. J. Shi, J. Zhang Donghua University, Shanghai, China 3P-94 Synthesis of Si-Based Nanoparticles by Atmospheric-Pressure Microplasma S. Askari, J. McKenna, S. Mitra, P. Maguire, D. Mariotti 108 Technical Program Wednesday afternoon, July 11 School of Engineering, Nanotechnology & Integrated Bio-Engineering Centre (NIBEC), University of Ulster, Belfast, United Kingdom 3P-95 Energetic Evaluation of Ammonia Synthesis Using a Coaxial Dielectric Barrier Reactor B. Arevalo-Torres, M. Nieto-Perez, R. C. Pless-Elling, G. Ramos Alternative Energy, CICATA-IPN Unidad Queretaro, Queretaro, Mexico 3P-96 Deposition of Siox Oxygen Barrier Films by Atmospheric Pressure Plasma Jet Z. Liu, Q. Chen, Z. Wang, L. Sang Beijing Institute of Graphic Communication, Beijing, China 3P-97 Kinetic Effects in Low Pressure Capacitively Coupled Plasmas P. H. Stoltz, A. Likhanskii, P. Neilson Tech-X Corporation, Boulder, CO, USA 3P-98 Plasma Treatment of Metallic Artefacts M. Prochazka, V. Sazavska, R. Prikryl, R. Balastikova, P. Fojtikova, F. Krcma Faculty of Chemistry, Brno University of Technology, Brno, Czech Republic 3P-99 Analysis of Aerodynamics and Charging of Nanoparticles in the Gas Aggregation Source Based on a Planar Magnetron J. Kousal1, O. Polonskyi1, P. Solar1, H. Biederman1, J. Blazek2, P. Bartos2 1Faculty of Mathematics and Physics, Charles University in Prague, Prague, Czech Republic 2Faculty of Education, University of South Bohemia, České Budějovice, Czech Republic 3P-100 Custom Tailored Ionen Energy Distribution Functions Online for Everybody M. Predki, M. Shihab, A. Wollny, R. P. Brinkmann Theoretical Electrical Engineering, Ruhr Universität Bochum, Bochum, Germany 3P-101 Control of Plasma Uniformity in Microwave Discharges by Using Hyper Simulator Y. Yasaka, N. Tobita, K. Kobayashi, R. Taniguchi, H. Takeno Electrical and Electronic Eng., Kobe University, Kobe, Japan 3P-102 Slot-Excited Long Racetrack ECR Plasma Source for Roll-to-Roll (scanning) Processing H. -J. You, S. Jang Plasma Technology Research Center, National Fusion Research Institute, Daejeon, South Korea 3P-103 Preparation of Proton Exchange Membranes by Plasma Grafting of Styrene on PTFE Powder Y. Lan, C. Cheng, Y. D. Meng Division of Low-Temperature Plasma Application, Institute of Plasma Physics, Chinese Academy of Sciences, Hefei, Anhui, China 3P-104 Non-Equilibrium Atmospheric Plasma Processing and Novel Applications H. Barankova, L. Bardos Angstrom Laboratory, Uppsala University, Uppsala, Sweden 109 Technical Program Wednesday afternoon, July 11 3P-105 The Modification of Lithium Ion Battery Separator by SiOx Coatings Z. Wang, L. Sang, Z. Liu, Q. Chen Laboratory of Plasma Physics and Materials, Beijing Institute of Graphic Communication, Beijing, China 3P-106 Developmemt of Large-Area Ecr Plasma Source for the Deposition of Copper Metallization S. Jang1, H. -J. You1, Y. -W. Kim1, I. U. Hwang2, J. Y. Park2, H. Lee2 1National Fusion Research Institute, Daejeon, South Korea 2Kookje Electric Korea, Pyeongtaek, South Korea 3P-107 Effect of Wall Electrode on Controlling Phase-Synchronized Triode Capacitively Coupled Plasma Source M. -S. Choi1, S. -H. Lee1, G. -H. Kim1, D. Sung2 1Department of Energy System (nuclear) Engineering, Seoul National University, Seoul, South Korea 2Mechatronics and Manufacturing Technology Center, Samsung Electronics Co. Ltd., Suwon, South Korea 3P-108 Comparing the Effects of Different Atmospheric Pressure Non-Equilibrium Plasma Sources on Polylactide Oxygen Permeability M. Boselli1, V. Colombo1, E. Ghedini1, M. Gherardi1, R. Laurita1, F. Rotundo1, P. Sanibondi1, M. Minelli2, M. G. De Angelis2 1Alma Mater Studiorum - Université di Bologna, Department of Mechanical Engineering, Bologna, Italy 2Alma Mater Studiorum - Université di Bologna, Department of Chemical Engineering, Bologna, Italy 3P-109 The Application of Nonlocal Effects in Beam Plasmas for Plasma Energetics A. Grabovskiy1, A. Mustafaev2, V. Demidov3, I. Kaganovich4, I. Schweigert5 1Saint Petersburg State Mining University, Saint Petersburg, Russian Federation 2Saint Petersburg State Mining University, Saint Petersburg, Russian Federation 3West Virginia University, Morgantown, USA 4Princeton Plasma Physics Laboratory, Princeton, USA 5Institute of Theoretical and Applied Mechanics, Novosibirsk, Russian Federation 3P-110 Combination of Modeling and Simple Real-Time Measurements to Control Plasma-Surface Interaction Processes A. Greb1, K. Niemi1, D. O'Connell1, G. J. Ennis2, N. MacGearailt2, T. Gans1 1Department of Physics, University of York, York, YO10 5DD, United Kingdom 2Intel Ireland Ltd., Leixlip, Ireland 3P-111 A Thermodynamic Model for Determination of the Vibrational Temperature in Non Thermal Plasmas A. C. Piquemal1, G. Boudarham1, A. Gleizes2, P. Teulet2 1CEA, DAM, DIF, F-91297 ARPAJON, France 2Laboratoire LAPLACE (UPS), bat 3R2, 118 rte de Narbonne, F-31062 Toulouse, France 110 Technical Program Wednesday afternoon, July 11 Session 3P: Particle Acceleration with Lasers and Beams (poster session) Wednesday, July 11 14:00-15:15, Cromdale Hall (Level -2) Session Chair: Stuart Mangles, Imperial College London 3P-112 Laser Wakefield Bubble Regime Acceleration of Electrons in a Preformed Non Uniform Plasma Channel M. K K, V. K. Tripathi Physics, IIT Delhi, New Delhi, India 3P-113 Femtosecond-Kiloampere Electron Bunches in Laser-Plasma Accelerators M. R. Islam, S. M. Wiggins, B. Ersfeld, S. Cipiccia, E. Brunetti, G. H. Welsh, D. A. Zaroszynski Physics, University of Strathclyde, Glasgow, United Kingdom 3P-114 Acceleration Dynamics in Laser-Driven Wakefields A. Popp1, R. Weingartner1, S. -W. Chou1, M. Heigoldt1, K. Khrennikov1, J. Wenz1, F. Krausz1,2, S. Karsch1,2 1LEX/LMU Munich, Garching, Germany 2Max-Planck-Institute of Quantum Optics, Garching, Germany 3P-115 Electron Acceleration by a Plasma Wave in a Density Modulated Plasma D. N. Gupta Department of Physics and Astrophysics, University of Delhi, Delhi-110007, Delhi, India 3P-116 A Computational Investigation of Synchrotron Radiation Generation in Laser Wakefield Acceleration Experiments P. G. Cummings, A. G. R. Thomas Center for Ultrafast Optical Sciences, University of Michigan, Ann Arbor, MI, USA 3P-117 Hard X-Rays and High-Energy Electrons from a Laser Plasma Accelerator S. P. D. Mangles1, M. Bloom1, M. J. Streeter1, A. Doepp1, S. Kneip1, H. Nakamura1, R. Bendoyro2, J. Jiang2, N. Lopes2, D. R. Symes3 1The Blackett Laboratory, Imperial College London, London, United Kingdom 2GoLP/Inst. Plasmas and Fusao Nuclear, Laboratorio Associado, Instituto Superior Tecnico, Lisbon, Portugal 3Central Laser Facility, STFC Rutherford Appleton Laboratory, Harwell, United Kingdom 3P-118 Fusion of Rare Isotopes by Laser Driven Ions D. P. Garuchava, K. Sigua Plasma Physics, I.Javakhishvili State University, Institute of Physics, Tbilisi, Georgia 3P-119 Ion Acceleration by Collisionless Shocks and Solitons in Laser Plasma Interactions A. S. Nindrayog1,2, A. Macchi2,1, F. Pegoraro1,2 1Dipartimento di Fisica "Enrico Fermi", Universita di Pisa, Pisa, Italy 2Istituto Nazionale di Ottica, Consiglio Nazionale delle Ricerche, Research Unit, Pisa, Italy 3P-120 Efficient Generation of High-Energy Ion Bunches via Laser-Induced Cavity Radiation Pressure Acceleration J. Badziak, S. Jablonski, P. Raczka Division of Laser Plasma, Institute of Plasma Physics and Laser Microfusion, Warsaw, Poland 111 Technical Program Wednesday afternoon, July 11 3P-121 Hot Electron Focusing for Fast Ignition R. J. Mason, R. J. Faehl, R. C. Kirkpatrick Research Applications Corporation, Los Alamos, NM, USA 3P-122 Separation of Isotopes from Plasma-Targets by Counterpropagating Relativistic Laser Pulses H. K. Avetissian, A. K. Avetissian, G. F. Mkrtchian, K. V. Sedrakian Yerevan State University, Centre of Strong Fields Physics, Yerevan, Armenia 3P-123 Modeling of Radiation Losses in Ultra-High Power Laser Matter Interaction R. Capdessus, E. d'Humieres, V. T. Tikhonchuk CELIA (Centre Lasers Intenses et Applications), Talence, France 3P-124 Generation of Relativistic Ion Beams Driven by an Ultraintense Laser J. Domanski, J. Badziak, S. Jablonski Institute of Plasma Physics and Laser Microfusion, Warsaw, Poland 3P-125 Wave Generation by Bessel Polarized Laser Beams in Plasma Beat-Wave Accelerator A. M. Gouda, B. Mohamed Atomic Energy Authority, Cairo, Egypt Session 3P: Optical and X-ray Diagnostics (poster session) Wednesday, July 11 14:00-15:15, Cromdale Hall (Level -2) Session Chair: Nader Sadeghi, University Grenoble, France 3P-126 Investigation of Nanosecond Discharge in Pressurized Air Sustained by HighVoltage Pulses with Different Rise-Times S. Yatom, D. Levko, J. Z. Gleizer, V. Vekselman, Y. E. Krasik Physics, Technion- Israel Institute of Technology, Haifa, Israel 3P-127 X-Ray and Optical Observations of the Dynamics of a Compact Fast Capillary Discharge with Potential as a Soft X-Ray Source E. S. Wyndham, J. C. Valenzuela, M. Favre, M. P. Valdivia Physics, Pontificia Universidad Católica de Chile, Santiago, Chile 3P-128 Evolution of the Exploding Titanium Wire in 5-50 kPa Ambient Gas* X. Zou1, Z. Mao2, X. Wang1, W. Jiang1 1Department of Electrical Engineering, Tsinghua University, Beijing, China 2Department of Physics and Chemistry, College of Physics, North China University of Technology, Beijing, China 3P-129 On the Spatio-Temporal Development of Pulsed Barrier Discharges M. Kettlitz, H. Hoeft, T. Hoder, K. -D. Weltmann, R. Brandenburg INP Greifswald, Greifswald, Germany 3P-130 Optical Emission Measurements of H2-N2 RF Glow Discharge Plasmas H. Nakada, K. Suda, M. Motohashi Tokyo Denki University, Tokyo, Japan 112 Technical Program Wednesday afternoon, July 11 3P-131 Optical Emission Spectroscopy of Plasma in Waveguide-Supplied Nozzleless Microwave Source B. Hrycak1, M. Jasiński1, M. Dors1, J. Mizeraczyk1,2 1Centre for Plasma and Laser Engineering, The Szewalski Institute of Fluid-Flow Machinery Polish Academy of Sciences, Gdańsk, Poland 2Faculty of Marine Electrical Engineering, Gdynia Maritime University, Gdynia, Poland 3P-132 Elliptical Spectrometer for the Study of X-Pinch Physics Through Absorption Spectroscopy A. D. Cahill, C. L. Hoyt, T. A. Shelkovenko, S. A. Pikuz, D. A. Hammer ECE, Cornell University, Ithaca, NY, USA 3P-133 Measurement of Absolute Density of OH Radicals in an Atmospheric Plasma Pencil by Laser-Induced Fluorescence J. Vorac, P. Dvorak, V. Prochazka Department of Physical Electronics, Faculty of Science, Masaryk University, Brno, Czech Republic 3P-134 Laser Shadowgraphy, Schlieren and Interferometry for Characterizing Conical Wire Array Sources and Self-Magnetic-Pinched Diodes at CEA Gramat. D. Plouhinec, Z. Frederic, S. David, P. Maury, P. Combes CEA Gramat, Gramat, France 3P-135 Gas Temperature Measurement in Ar and Ar-Cl2 Based ICP Discharge: Comparison Between Experiments and Simulations N. Sirse, Q. Delivre, J. P. Booth, P. Chabert LPP-CNRS, Ecole Polytechnique, 91128 Palaiseau, France 3P-136 Preliminary Investigations into Utilizing Standard/Hybrid X-Pinch Line Radiation as a Probe for X-Ray Thomson Scattering Experiments C. L. Hoyt, S. A. Pikuz, T. A. Shelkovenko, D. A. Hammer Laboratory of Plasma Studies, Cornell University, Ithaca, USA 3P-137 Visible Spectroscopy Characterization of Aluminum X Pinch Plasmas K. S. Blesener1, I. C. Blesener1, D. A. Hammer1, R. Doron2, Y. Maron2, E. Kroupp2, V. Bernshtam2, L. Weingarten2, Y. Zarnitsky2 1Cornell University, Ithaca, NY, USA 2Weizmann Institute of Science, Rehovot, Israel 3P-138 Ultraviolet Laser Scattering in Atmospheric Microdischarges S. F. Adams1, J. E. Caplinger2, J. M. Williamson2 1Air Force Research Laboratory, WPAFB, OH, USA 2UES, Inc., Dayton, OH, USA 3P-139 Evaluation of Laser Welding Quality Based on a Plasma Spectroscopy in a Continuous Steel Process J. Choi POSCO, Pohang, South Korea 3P-140 Characteristics of Plasma in Electrical Explosion of Aluminum Wire J. Zhao1, Q. Zhang1, W. Yan1, L. Liu1, X. Liu1, Q. Zhou1, A. Qiu1,2 113 Technical Program Wednesday afternoon, July 11 1High Voltage Division, School of Electrical Engineering, Xi’an Jiaotong University, Xi'an, Shaanxi, China 2Northwest institute of Nuclear Technology, Xi'an, Shaanxi, China 3P-141 Fluid-Dynamic Characterization of Atmospheric Pressure Non-Equilibrium Plasma Sources for Biomedical Applications M. Boselli, V. Colombo, E. Ghedini, M. Gherardi, R. Laurita, F. Rotundo, P. Sanibondi Alma Mater Studiorum - Université di Bologna, Department of Mechanical Engineering, Bologna, Italy 3P-142 Spatial Distribution of Microplasma in Small Discharge Gaps M. G. Blajan, K. Shimizu Innovation and Joint Research Center, Shizuoka University, Hamamatsu, Japan 3P-143 Laser Spectroscopic Techniques for Diagnosis of Reactive Plasmas H. Ding, C. Feng, C. Li School of Physics and Optical Electronic Technology, Dalian University of Technology, Dalian, Liaoning, China Session 3P: Microwave and FIR Diagnostics (poster session) Wednesday, July 11 14:00-15:15, Cromdale Hall (Level -2) Session Chair: Henrik Bindslev, Aarhus University 3P-144 Feedback control of the plasma position at ASDEX Upgrade using microwave reflectometry J. Santos1, L. Guimarãis1, M. Zilker2, W. T. Treutterer2, M. Manso1 1Universidade Técnica de Lisboa, Lisboa, Portugal 2Max-Planck Institut fuer Plasmaphysik, Garching, Germany Session 6A: Basic Phenomena II (oral) Wednesday, July 11 15:30-17:30, Tinto Room (Level 0) Session Chair: Rod W Boswell, Australian National University 15:30 6A-1 (invited) A Kinetic Theory of Planar Plasma Sheaths Surrounding Electron Emitting Surfaces J. P. Sheehan1, I. Kaganovich2, N. Hershkowitz1, Y. Raitses2 1Nuclear Engineering and Engineering Physics, University of Wisconsin - Madison, Madison, WI, USA 2Princeton Plasma Physics Laboratory, Princeton, NJ, USA 16:00 6A-2 Theoretical and Experimental Researches of the Ability to Create the Long Conductive Cannel in the Atmosphere D. Morozov, E. Stupitsky Moscow State Industrial University, Sergiev Posad, Russian Federation 16:15 6A-3 Exact Formulas for Space Charge Limited Flow in a Planar Diode: New Relativistic Child-Langmuir Law M. -C. Lin NanoScience Simulation Laboratory, Fu Jen Catholic University, New Taipei City, Taiwan 114 Technical Program Wednesday afternoon, July 11 16:30 6A-4 A High Resolution Study of the Penetration of a Magnetic Field into a LowResistivity Multi-Ion-Species Plasma B. Rubinstein1, J. Citrin1, R. Doron1, R. Arad1, Y. Maron1, A. Fruchtman2, H. Zhom3, T. A. Mehlhorn4 1Department of Particle Physics and Astrophysics, Weizmann Institute of Science, Rehovot, Israel 2Department of Sciences, Holon Institute of Technology, Holon, Israel 3Max-Planck-Institut für Plasmaphysik, Garching, Germany 4Plasma Physics Div., Naval Research Laboratory, Washington DC, USA 16:45 6A-5 Measurement of Ion Average Velocity in Riemann's Transition Layer in Front of Sheath N. -K. Kim, S. -Y. Yoon, G. -H. Kim Department of Energy System (Nuclear) Engineering, Seoul National University, Seoul, South Korea 17:00 6A-6 Simulations of a CCP-Based Sputtering Source with a PIC/MCC Darwin Code D. Eremin, S. Bienholz, D. Szeremley, P. Awakowicz, R. -P. Brinkmann, T. Mussenbrock Ruhr-University Bochum, Bochum, Germany 17:15 6A-7 Accurate Calculation of High Harmonics Generated by Interactions Between Very Intense Laser Fields and Electron Plasmas A. Popa Laser Department, National Institute for Laser, Plasma and Radiation Physics, Bucharest, Romania Session 6B: Slow wave Devices and Non-Fusion Microwave Systems (oral) Wednesday, July 11 15:30-17:45, Moorfoot Room (Level 0) Session Chairs: Richard G Carter, Lancaster University Kevin Ronald, University of Strathclyde 15:30 6B-1 (invited) Microwave Oscillation in a Recirculating Planar Magnetron M. A. Franzi1, R. Gilgenbach1, Y. Lau1, D. Chalenski1, D. French2, B. Hoff2, D. Simon1, J. Luginsland3 1Plasma, Pulsed Power and Microwave Lab, Nuclear Engineering and Radiological Sciences Department, University of Michigan, Ann Arbor, MI, USA 2Air Force Research Lab, Kirtland AFB, Albuquerque, NM, USA 3Air Force Office of Scientific Research, Arlington, VA, USA 16:00 6B-2 Fabrication and Testing of a W-Band Sheet Beam Extended Interaction Klystron (EIK) J. A. Pasour1, E. L. Wright2, A. Balkcum3, K. T. Nguyen2, B. Levush1 1Naval Research Laboratory, Washington, DC, USA 2Beam Wave Research, Inc., Bethesda, MD, USA 3CPI, Inc., Palo Alto, CA, USA 16:15 6B-3 High-Frequency Devices with Weakly Relativistic Hollow Thin-Wall Electron Beams A. Fedotov, V. Bratman, P. Makhalov Institute of Applied Physics of the Russian Academy of Sciences, Nizhny Novgorod, Russian Federation 115 Technical Program Wednesday afternoon, July 11 16:30 6B-4 2D Modeling of TWTs Based on Serpentine and Folded Waveguide Structures I. A. Chernyavskiy1, A. N. Vlasov1, B. Levush1, T. M. Antonsen2 1Vacuum Electronics Branch, U.S. Naval Research Laboratory, Washington, DC, USA 2SAIC, McLean, VA, USA 16:45 6B-5 High-Power Broadband Ka-Band Cascaded-TWT Development D. Pershing1, K. Nguyen1, D. K. Abe2, L. Ludeking3, B. Levush2, E. Wright1, J. Pasour2, J. Petillo4, D. Chernin4 1Beam-Wave Research Inc., Bethesda, MD, USA 2Code 6840, Naval Research Laboratory, Washington, DC, USA 3ATK-Mission Research, Newington, VA, USA 4Science Applications Intl. Corp., McLean, VA, USA 17:00 6B-6 Active X-Band Pulse Compressor Using Electron-Beam Switching S. H. Gold1, A. L. Vikharev2, A. M. Gorbachev2, O. A. Ivanov2, M. Lobaev2, A. K. Kinkead3 1Plasma Physics Division, Naval Research Laboratory, Washington, DC, USA 2Institute of Applied Physics, Russian Academy of Sciences, Nizhny Novgorod, Russia 3Icarus Research, Bethesda, MD, USA 17:15 6B-7 The Nonrelativistic Gyrotron I. Alexeff1, B. P. Yefimov2, S. Kishko2, S. Pomarenko2, A. Kuleshov2 1University of TN, Knoxville, TN 37916, Knoxville, TN, USA 2Usikov Institute of Radiophysics and Electronics, Kharkov, Ukraine 17:30 6B-8 A 2d Model for the Electromagnetic-Plasma Interaction in a Surfatron Source M. Jimenez_Diaz, J. van Dijk, E. A. D. Carbone, J. J. A. M. van der Mullen Eindhoven University of Technology, Eindhoven, Netherlands Session 6C: Fast Z Pinches, X-ray Lasers II (oral) Wednesday, July 11 15:30-17:45, Fintry Auditorium (Level 3) Session Chair: Gareth N Hall, Imperial College London 15:30 6C-1 (invited) Seeded Magneto-Rayleigh-Taylor Instability Experiments on a 1MA LTD D. A. Chalenski, R. M. Gilgenbach, S. G. Patel, A. M. Steiner, D. Yager-Eliorraga, Y. Y. Lau Nuclear Engineering and Radiological Sciences, University of Michigan, Ann Arbor, MI, USA 16:00 6C-2 Initiation, Ablation, Precursor Formation, and Instability Analysis of Thin Foil Copper Liners I. C. Blesener1, K. S. Blesener1, J. B. Greenly1, B. R. Kusse1, C. E. Seyler1, D. A. Hammer1, B. Blue2 1Cornell University, Ithaca, NY, USA 2General Atomics, San Diego, CA, USA 16:15 6C-3 Implosion Dynamics of Z-Pinch Loads in Two-Stage Wire Arrays Z-Pinches S. V. Lebedev, A. J. Harvey-Thompson, E. Khoory, S. N. Bland, G. Burdiak, J. P. Chittenden, P. De Grouchy, M. Bennett, G. N. Hall, L. Pickworth, F. Suzuki-Vidal, J. Skidmore, L. Suttle, G. F. Swadling Imperial College London, London, United Kingdom 116 Technical Program Wednesday afternoon, July 11 16:30 6C-4 Cylindrical Liner Z-Pinch Experiments on the MAGPIE Generator G. C. Burdiak1, S. V. Lebedev1, A. J. Harvey-Thompson2, G. F. Swadling1, J. Skidmore1, L. A. Pickworth1, E. Khoory1, P. W. de Grouchy1, F. Suzuki-Vidal1, S. N. Bland1, L. G. Suttle1, G. N. Hall1 1Plasma Physics, Imperial College London, London, United Kingdom 2Sandia National Laboratories, Albuquerque, NM, USA 16:45 6C-5 Investigation of the Dynamics of Stagnating High-Energy-Density Plasma Using a Novel Technique for the Determination of the Ion Temperature D. Alumot1, E. Kroupp1, E. Stambulchik1, D. Osin1, A. Starobinets1, V. Bernshtam1, L. Weingarten1, Y. Maron1, I. Uschmann2, A. Fisher3 1Weizmann Institute of Science, Rehovot, Israel 2Friedrich-Schiller University, Jena, Germany 3Technion - Israel Institute of Technology, Haifa, Israel 17:00 6C-6 Operational Characteristics of a 60 Ka Plasma Focus Between 1 Hz and 10 Hz C. R. James, B. L. Bures, M. Krishnan Alameda Applied Sciences Corporation, San Leandro, CA, USA 17:15 6C-7 Implosions of Larger Size Wire Arrays at Enhanced Current of 1.5-1.7 MA on Zebra with LCM A. S. Safronova1, A. A. Esaulov1, V. L. Kantsyrev1, A. Stafford1, M. E. Weller1, V. V. Shlyaptseva1, H. A. Zunino1, I. Shrestha1, G. C. Osborne1, S. F. Keim1, A. S. Chuvatin2, C. A. Coverdale3 1University of Nevada, Reno, NV, USA 2Ecole Polytechnique, Palaiseau, France 3Sandia National Laboratories, Albuquerque, NM, USA 17:30 6C-8 Spectroscopic Diagnosing of Temperature Profile for Aluminum Wire Array Z-Pinches on a 1-MA Facility F. Ye1, D. L. Xiao2, Y. Qin1, S. J. Meng1, F. X. Chen1 1Insitute of Nuclear Physics & Chemistry, China Academy of Engineerig Physics, Mianyang, China 2Institute of Applied Physics and Computational Mathematics, Beijing, China Session 6D: Intense Electron Ion Beams & Particle Diagnostics (oral) Wednesday, July 11 15:30-17:45, Sidlaw Auditorium (Level 3) Session Chair: Joseph Schumer, Naval Research Laboratory 15:30 6D-1 Use of Pulsed Bremsstrahlung Excitation on HERMES-III for Investigation of Active Detention of Fissionable Material* T. J. Renk1, B. V. Oliver1, V. Harper-Slaboszewicz1, M. S. Derzon1, D. K. Derzon1, P. W. Lake1, E. Brubaker1, M. D. Gerling1, J. Steele1, B. V. Weber2, R. J. Commisso2, D. P. Murphy2, S. L. Jackson2, J. C. Zier2, B. F. Phlips2, A. L. Hutcheson2, E. A. Wulf2, A. Caruso3, E. R. Myers3 1Sandia National Laboratories, Albuquerque, NM, USA 2Naval Research Laboratory, Washington, DC, USA 3University of Missouri - Kansas City, Kansas City, MO, USA 15:45 6D-2 Photofission Experiments on the Hermes-III Generator B. V. Weber1, R. J. Commisso1, D. P. Murphy1, S. L. Jackson1, J. C. Zier1, B. V. Oliver2, T. J. Renk2 1Naval Research Laboratory, Washington, DC, USA 2Sandia National Laboratories, Albuquerque, NM, USA 117 Technical Program Wednesday afternoon, July 11 16:00 6D-3 Modelling of the 7Li(p,n)7Be Neutron Yield from Mercury Using GEANT4 and LSP M. Rubery1, J. Threadgold1, J. O'Malley1, C. Clemett1, M. Ellis1, P. Martin1, A. Thandi1, J. Zier2, S. Jackson2, D. Hinshelwood2, D. Mosher2, R. Allen2, J. Apruzese2, R. Commisso2, D. Murphy2, D. Phipps2, J. Schumer2, B. Weber2, F. Young2, A. Hutchinson3, L. Mitchell3, B. Phlips3, R. Woolf3 1AWE Aldermaston, Reading, Berkshire, United Kingdom 2Plasma Physics Division, Naval Research Laboratory, Washington, DC, USA 3Space Science Division, Naval Research Laboratory, Washington, DC, USA 16:15 6D-4 Measurements and Simulations of Plasma Evolution in the A-K Gap of the Self-Magnetic Pinch Diode Fielded on the RITS-6 Accelerator* M. D. Johnston1, B. V. Oliver1, N. Bruner2, D. Welch2, Y. Maron3 1Advanced Radiographic Technologies, Sandia National Laboratories, Albuquerque, NM, USA 2Voss Scientific LLC, Albuquerque, NM, USA 3Weizmann Institute of Science, Rehovot, Israel 16:30 6D-5 3d Particle-in-Cell Simulations of Small- Diameter Self-Magnetic-Pinch Diodes S. B. Swanekamp1, G. Cooperstein2, A. S. Richardson1, P. F. Ottinger2, D. D. Hinshelwood1, J. W. Schumer1 1Plasma Physics Division, Naval Research Laboratory, Washington, DC, USA 2Independent Consultant through L3 Communications, Washington, DC, USA 16:45 6D-6 (invited) A Novel Method for the Measurement of the Momentum of Sputtered Atoms J. Rutscher, T. Trottenberg, H. Kersten IEAP, University Kiel, Germany, Kiel, Germany 17:15 6D-7 Diagnostics of Ambient Air Species Diffusion into the Effluent of an Atmospheric Pressure Plasma Jet Assisted by Analytical and Numerical Modelling A. Schmidt-Bleker1,2, J. Winter1,2, M. Duennbier1,2, S. Reuter1,2, K. -D. Weltmann2 1Extracellular Effects, Centre for Innovation Competence Plasmatis, Greifswald, Germany 2INP Greifswald, Greifswald, Germany 17:30 6D-8 A Compact Plasma Absorption Probe for Plasma Density Measurements C. -H. Hsieh, W. -C. Chen, K. -C. Leou Engineering and System Science Department, National Tsing Hua University, Hsinchu, Taiwan Session 6E: Plasmas for Lighting and Flat Panel Display / High-temperature and Thermal Plasma Processing I (oral) Wednesday, July 11 15:30-17:45, Pentland Auditorium (Level 3) Session Chair: Mikhail S Benilov, Universidade da Madeira 15:30 6E-1 (invited) Plasma Metamaterials for Novel Interaction Between Plasmas and Waves O. Sakai Department of Electronic Science and Engineering, Kyoto University, Kyoto, Japan 16:00 6E-2 Stability of Arc Discharges in Very-High Pressure Xenon Lamps Against Electron Temperature Perturbations M. S. Benilov1, U. Hechtfischer2 118 Technical Program Wednesday afternoon, July 11 1Universidade 2Philips da Madeira, Funchal, Portugal Lighting, Aachen, Germany 16:15 6E-3 Characterization of the Starting and Stabilization Processes Inside an Electrodeless Low Pressure Mercury Lamp Driven with Pulsed Mode Surface Waves C. M. Oeguen, C. Kaiser, R. Kling Light Technology Institute, Karlsruhe Institute of Technology, Karlsruhe, Germany 16:30 6E-4 Characteristics of High Efficacy Plasma Display Panel Utilizing Diagonal Discharge Cell Structure. M. -T. Kim, Y. -G. Kim, J. Heo, H. J. Lee, H. -J. Lee Pusan National University, Busan, South Korea 16:45 6E-5 Progress in Performance of Microplasma Lighting Tiles J. M. Bulson, C. M. Herring, S. -J. Park, J. G. Eden Eden Park Illumination, Inc., Champaign, IL, USA 17:00 6E-6 Influence of an Acoustic Resonator on Non-Transferred Plasma Torch Parameters J. Krowka, V. Rat, J. -F. Coudert CNRS-University of Limoges- SPCTS (UMR7513), Limoges, France 17:15 6E-7 A Three-Dimensional Computational Model of MIG Welding, including the Arc, Electrode, Weld Pool and Metal Vapour A. B. Murphy CSIRO Materials Science & Engineering, Lindfield, NSW, Australia 17:30 6E-8 Pulsed Microplasmas Generated in Truncated Paraboloidal Microcavities: Simulations of Particle Densities and Energy Flow H. -J. Lee1, S. -J. Park2, J. G. Eden2 1Electrical Engineering, Pusan National University, Busan, South Korea 2Electrical and Computer Engineering, University of Illinois, Urbana, USA 119 Technical Program Thursday morning, July 12 Session PL7: Plenary 7 Thursday, July 12 08:00-09:00, Pentland Suite (Level 3) Session Chair: Jeremy Chittenden, Imperial College 8:00 PL7-1 High Energy Density Physics at AWE A. Randewich AWE, Aldermaston, UK Session 7A: Computational Plasma Physics II (oral) Thursday, July 12 09:30-12:00, Tinto Room (Level 0) Session Chair: Andrew J Christlieb, Michigan State University 9:30 7A-1 (invited) Error Estimation for Solution Verification of Stochastic Problems in PIC Plasma Models L. C. Musson, K. L. Cartwright, G. A. Radtke, P. L. Hopkins, M. M. Hopkins Sandia National Laboratories, Albuquerque, NM, USA 10:00 7A-2 Benchmarking of Particle-in-Cell Simulations with Monte Carlo Collisions M. M. Turner1, D. Eremin2, T. Mussenbrock2, A. Derzsi3, Z. Donko3 1National Centre for Plasma Science and Technology, Dublin City University, Dublin, Ireland 2Theoretical Electrical Engineering, Ruhr University, Bochum, Germany 3Research Institute for Solid State Physics and Optics, Hungarian Academy of Sciences, Budapest, Hungary 10:15 7A-3 Solution Verification, Validation, and Uncertainty Quantification for a Series of Gas Cell Experiments at NRL K. L. Cartwright1, R. G. Hills1, T. D. Pointon1, D. D. Hinshelwood2, J. W. Schumer2, S. B. Swanekamp2, P. F. Ottinger2 1Sandia National Laboratories, Albuquerque, NM, USA 2Naval Research Laboratory, Washington, DC, USA 10:30 7A-4 Numerical Simulation of a 30 GHz Gyrotron Resonator with a 3D High-Order Discontinuous Galerkin Approach Based Particle-in-Cell Method A. Stock1, J. Neudorfer1, C. -D. Munz1, R. Schneider2 1Institute of Aerodynamics and Gas Dynamics, University of Stuttgart, Stuttgart, Germany 2Institut für Hochleistungsimpuls- und Mikrowellentechnik, Karlsruher Institut für Technologie, Karlsruhe, Germany 10:45 7A-5 Parallelization of a 3D high-order Particle-In-Cell Method and Numerical Simulations of a 170 GHz Resonator and Launcher J. Neudorfer1, A. Stock1, C. -D. Munz1, R. Schneider2 1Institut für Aerodynamik und Gasdynamik, Universität Stuttgart, Stuttgart, Germany 2Institut für Hochleistungsimpuls- und Mikrowellentechnik, Karlsruher Institut für Technologie, Karlsruhe, Germany 11:00 7A-6 Investigation of Heating Mode Transition in a Dielectric Barrier Discharge at Atmospheric Pressure Using a Particle-in-Cell Simulation J. -Y. Lee, H. W. Bae, H. -J. Lee, H. J. Lee Department Electronics Engineering, Pusan National University, Busan, South Korea 120 Technical Program Thursday morning, July 12 11:15 7A-7 3D Vacuum Arc Breakdown Simulation: Many Challenges and Some Solutions M. M. Hopkins, J. J. Boerner, E. V. Barnat, P. S. Crozier, M. T. Bettencourt, L. C. Musson, H. E. Meyer, R. Hooper, C. H. Moore Sandia National Labs, Albuquerque, NM, USA 11:30 7A-8 The Kinetic Theory Molecular Dynamics Method C. A. Fichtl1, M. S. Murillo1, F. R. Graziani2 1LANL, Los Alamos, NM, USA 2LLNL, Livermore, CA, USA 11:45 7A-9 Parallelized Two-Dimensional Particle-in-Cell Simulation for Capacitively Coupled Plasmas Using Graphic Processing Units I. C. Song, H. W. Bae, H. -J. Lee, H. J. Lee Electrical Engineering, Pusan National University, Busan, South Korea Session 7B: Vacuum Microelectronics and THz Sources, Radiation, & Applications (oral) Thursday, July 12 09:30-12:15, Moorfoot Room (Level 0) Session Chairs: Claudio Paoloni, University of Rome Tor Vergata, Italy Wenlong He, Department of Physics SUPA, University of Strathclyde, Glasgow, UK 9:30 7B-1 Microfabricated 220 GHz, 50W Serpentine Waveguide Amplifier Using Novel UV-LIGA Beam Tunnel Technique C. D. Joye, A. M. Cook, J. P. Calame, D. K. Abe Code 6840, U.S. Naval Research Laboratory, Washington, DC, USA 9:45 7B-2 Vacuum Tube Amplifier of the Opther Project for 1-THz Amplification A. Di Carlo1, C. Paoloni1, M. Mineo1, A. J. Durand2, V. Krozer3, M. Kotiranta3, F. Bouamrane4, T. Bouvet4, S. Megtert4 1Electronic Engineering, University of Rome Tor Vergata, Italy, Rome, Italy 2Thales Electron Devices, Velizy, France 3Physikalisches Institut, Goethe-Universität Frankfurt am Main, Frankfurt am Main, Germany 4UMR137 CNRS/Thales, Palaiseau, France 10:00 7B-3 Cold Cathode Realization for Triode Electron Gun G. Ulisse, C. Ciceroni, F. Brunetti, A. Di Carlo University of Rome, Rome, Italy 10:15 7B-4 Characterization of Field Emitter Arrays for Compact Neutron Sources Utilizing Field Ionization A. Persaud1, R. Kapadia2, K. Takei2, A. Javey2, T. Schenkel1 1Accelerator and Fusion Research Division, E.O. Lawrence Berkeley National Laboratory, Berkeley, CA, USA 2Department of Electrical Engineering and Computer Sciences, University of California at Berkeley, Berkeley, CA, USA 10:30 7B-5 (invited) Remote Detection of Radioactive Materials Using a NearTerahertz Gyrotron V. L. Granatstein, G. S. Nusinovich, P. A. Sprangle, J. Rodgers, C. A. Romero-Talamas, R. Pu, D. Kashyn, A. Shkvarunets IREAP, University of Maryland, College Park, MD, USA 121 Technical Program Thursday morning, July 12 11:00 7B-6 Experimental Study on a W-Band Gyro-BWO with a Helically Corrugated Waveguide L. Zhang, W. He, C. R. Donaldson, P. McElhinney, A. W. Cross, A. D. R. Phelps, K. Ronald Department of Physics, SUPA, University of Strathclyde, Glasgow, United Kingdom 11:15 7B-7 A Compact, High-Power THz Source R. H. Jackson1, H. P. Bluem2, A. M. M. Todd2 1Jackson Science Consulting, Greensboro, NC, USA 2Advanced Energy Systems, Medford, NY, USA 11:30 7B-8 Intense Terahertz Supercontinuum Generated from Ultrashort Laser Induced Plasma of Metal Foil C. L. Zhang Department of Physics, Captital Normal University, Beijing, China 11:45 7B-9 Terahertz Band Superradaince of Extended Electron Bunch Moving above Periodically Corrugated Surface I. V. Zotova, N. S. Ginzburg, A. S. Sergeev, A. M. Malkin, V. Y. Zaslavsky Russian Academy Science, Institute of Applied Physics RAS, Nizhny Novgorod, Russian Federation 12:00 7B-10 High Power Broadband Gyro-TWAs Operating in Terahertz Frequency Range W. He, K. Ronald, A. D. R. Phelps, A. W. Cross SUPA, Department of Phys., University Strathclyde, UK, Glasgow, United Kingdom Session 7C: Optical, X-ray, Microwave, and FIR Diagnostics (oral) Thursday, July 12 09:30-12:00, Fintry Auditorium (Level 3) Session Chair: Henrik Bindslev, Aarhus University 9:30 7C-1 Using Tomographic ("Art") Methods with an Interferometer to Diagnose Asymmetrical Gas Flow P. L. Coleman1, M. Krishnan2, B. Bures2, K. Elliott2, R. Madden2 1Evergreen Hill Sciences, Philomath, OR, USA 2Alameda Applied Sciences, San Leandro, CA, USA 9:45 7C-2 Schlieren Visualization of Spark Generated Shockwaves in Narrow Channels K. Graupner, C. P. Garner, D. Hoare, J. E. Harry, A. Mason, A. M. Williams Wolfson School of Mechanical and Manufacturing Engineering, Loughborough University, Loughborough, United Kingdom 10:00 7C-3 Experimental Measurements of the Dynamic Electric Field Topology Associated with Magnetized RF Sheaths in Hydrogen and Helium Discharges E. H. Martin1, S. C. Shannon1, J. B. O. Caughman2 1Nuclear Engineering, NCSU, Raleigh, NC, USA 2Fusion Energy Division, ORNL, Oak Ridge, TN, USA 10:15 7C-4 Measurement of Helium Metastables in Micro Plasma Jet C. Douat1, G. Beauville1, M. Fleury1, N. Sadeghi2, V. Puech1 1LPGP and CNRS, Orsay, France 2LIPhy and CNRS, Grenoble, France 122 Technical Program Thursday morning, July 12 10:30 7C-5 Time and Spatially Resolved OH Dynamics in a Nanosecond Pulsed Filamentary Discharge in Atmospheric Pressure He-H2O T. Verreycken, R. van der Horst, L. Baede, E. van Veldhuizen, P. Bruggeman Eindhoven University of Technology, Eindhoven, Netherlands 10:45 7C-6 Detection of Various Active Species in Ar-Diluted NH3 Atmospheric-Pressure Plasma by Ultraviolet Absorption Spectroscopy Y. Hiraoka, K. Urabe, O. Sakai Kyoto University, Kyoto, Japan 11:00 7C-7 Visualization of Instabilities in Hot Magnetized Plasmas by Ece Imaging A. J. Donne1, A. Bogomolov1, J. J. Boom1, I. G. Classen1, B. J. Tobias2, N. C. Luhmann Jr3, C. W. Domier3, G. S. Yun4, W. Lee4, H. K. Park4 1Fusion Physics, FOM Institute DIFFER, Nieuwegein, Netherlands 2Princeton Plasma Physics Laboratory, Princeton, NJ, USA 3Applied Physics, UC Davis, Davis, CA, USA 4Postech, Pohang, Rep. of Korea 11:15 7C-8 Microwave Imaging Reflectometry from Concept to Construction: the Role of Modeling and Laboratory Characterization in Diagnostic Development B. J. Tobias1, C. W. Domier2, G. J. Kramer1, J. Lai2, N. C. Luhmann, Jr.2, X. Ren2, E. J. Valeo1 1Princeton Plasma Physics Laboratory, Princeton, NJ, USA 2University of California at Davis, Davis, CA, USA 11:30 7C-9 Study of Mhd and Turbulence via Advanced 2d/3d Imaging Systems on Kstar H. K. Park1, G. S. Yun1, W. Lee1, M. J. Choi1, J. Lee1, M. Kim1, Y. Nam1, J. H. Lee2, Y. M. Jeon2, C. W. Domier3, N. C. Luhmann, Jr.3, A. J. H. Donne4, S. Zoletnik5 1Physics, POSTECH, Pohang, South Korea 2NFRI, Daejeon, South Korea 3University of California at Davis, Davis, USA 4Differ, Rijnhuizen, Netherland 5WRC, Budafest, Hungary 11:45 7C-10 Diagnosis of Energetic Ions and Ion Composition in Fusion Plasmas by Collective Thomson Scattering of Mm-Waves H. Bindslev1, S. B. Korsholm2, F. Leipold2, F. Meo2, P. K. Michelsen2, S. K. Nielsen2, M. Salewski2, M. Steiner2 1Faculty of Science and Technology, Aarhus University, Aarhus, Denmark 2Physics, DTU, Roskilde, Denmark Session 7D: High-Temperature & Thermal Plasma Processing II (oral) Thursday, July 12 09:30-12:00, Sidlaw Auditorium (Level 3) Session Chair: Anthony B Murphy, CSIRO Materials Science & Engineering 9:30 7D-1 (invited) Generation and Functionalization of Pure Graphene Flake Structures in Thermal Plasma Reactors J. -L. Meunier, N. Mendoza-Gonzalez, R. Pristavita, D. Binny, D. Berk Chemical Engineering, McGill University, Montreal, Quebec, Canada 10:00 7D-2 Influence of Processing Parameters on the Properties of Silicon Nanoparticles Synthesized by Radio-Frequency Induction Thermal Plasma 123 Technical Program Thursday morning, July 12 V. Colombo1, E. Ghedini1, M. Gherardi1, P. Sanibondi1, C. Jaeggi2, C. Delval2, M. Leparoux2, P. Stijn3, D. Nelis3 1Department of Mechanical Engineering, Alma Mater Studiorum - Université di Bologna, Bologna, Italy 2Swiss Federal Laboratories for Materials Science and Technology, Advanced Materials Processing, Empa, Thun, Switzerland 3GRD, Umicore, Olen, Belgium 10:15 7D-3 Doping of Crystalline Silicon Solar Cell by Making Use of Atmospheric and Sub-Atmospheric Plasma Jet J. Kim, J. Kim, H. Kang, M. Yun, B. Jeon, J. H. Koo, G. -C. Kwon, G. Cho Department of Electrophysics, Kwangwoon University, Seoul, South Korea 10:30 7D-4 Theoretical and Experimental Study of Electron and Heavy Particle Temperatures in a Transferred Arc M. Baeva, R. Kozakov, D. Uhrlandt Leibniz-Institute for Plasma Science and Technology e.V. (INP Greifswald), Greifswald, Germany 10:45 7D-5 Determination of Surface Temperature, Surface Tension and Enthalpy of the Material Transfer from the Electrode to the Workpiece in GMAW for the System Argon-Iron E. Siewert, J. Schein Institut für Plasmatechnik und Mathematik, Universität der Bundeswehr München, WernerHeisenberg-Weg 39, 85577 Neubiberg, Germany, Germany 11:00 7D-6 Sheath vs. Quasi-Neutral Plasma Voltages in High-Pressure Arc Discharges M. S. Benilov1, L. G. Benilova1, H. -P. Li2, G. -Q. Wu2 1Departamento de Fisica, Universidade da Madeira, Funchal, Portugal 2Department of Engineering Physics, Tsinghua University, Beijing, P. R. China 11:15 7D-7 Formation Mechanism of Transition Metal Boride Nanoparticles in Induction Thermal Plasma Processing T. Watanabe, Y. Cheng, J. Matsuo, S. Choi Dept. Environmental Chemistry & Engineering, Tokyo Institute of Technology, Yokohama, Japan 11:30 7D-8 Plasma Electrochemistry for Nanomaterials Synthesis and Patterning S. W. Lee, R. M. Sankaran Case Western Reserve University, Cleveland, OH, USA 11:45 7D-9 Study of CO2 Dissociation in the Low Current Gliding Discharge in the Reverse Vortex Flow A. F. Gutsol Chevron Energy Technology Company, Richmond, CA, USA Session 7E: Plasma Medicine III (oral) Thursday, July 12 09:30-12:15, Pentland Auditorium (Level 3) Session Chair: XinPei Lu, Huazhong University of Science and Technology, China 9:30 7E-1 Effects of Discharge Gas Metastable Energy Level on the Nitric Oxide Radical Generation in Atmospheric Pressure Plasma Jet for Oral Bacteria Removal S. -Y. Yoon1, Y. -C. Jang1, G. -H. Kim1, K. -H. Kim2, Y. -J. Seol2 124 Technical Program Thursday morning, July 12 1Department of Nuclear Engineering, Seoul National University, Plasma Application Laboratory, Seoul, South Korea 2Department of Periodontology, School of Dentistry, Seoul National University, Periodontitis Laboratory, Seoul, South Korea 9:45 7E-2 Plasma Surface Treatment of Biomedical Polymers to Improve Cell Adhesion T. Jacobs1, R. Morent1, N. De Geyter1, C. Leys1, H. Declercq2, R. Cornelissen2, T. Desmet3, S. Vanvlierberghe3, P. Dubruel3 1Department of Applied Physics, Ghent University, Ghent, Belgium 2Department of Basic Medical Science, Ghent University, Ghent, Belgium 3Department of Organic Chemistry, Ghent University, Ghent, Belgium 10:00 7E-3 Plasma Sources for Local or Large-Area Treatment in Biomedical Applications: Basic Physical Characterization R. Bussiahn, T. von Woedtke, K. -D. Weltmann Leibniz Institute for Plasma Science and Technology (INP Greifswald), Greifswald, Germany 10:15 7E-4 Study of Plasma Bullet Propagation Inside of Tissue and Agarose Tissue Model D. Dobrynin, A. Fridman Drexel University, Philadelphia, PA, USA 10:30 7E-5 Antitumoral Effects of Combined Non Thermal Plasma and Gemcitabine Treatments on a Mia Paca-Luc Orthotopic Pancreatic Carcinoma Model L. Brulle1,2, M. Vandamme1,3,4, D. Ries3, E. Martel2, E. Robert3, S. Lerondel1, V. Trichet5, S. Richard2, J. -M. Pouvesle3, A. Le Pape1,6 1UPS44 CNRS, TAAM-CIPA, Orleans, France 2CERB, Baugy, France 3UMR7344 Orleans University/CNRS, GREMI, Orleans, France 4GERMITEC SAS, Clichy, France 5INSERM, U957, Nantes, France 6ISERM/Tours University, U1100/EA6305, Tours, France 10:45 7E-6 Quantification of Protein Contamination on surfaces R. Baxter, A. Jones, H. Baxter School of Chemistry, University of Edinburgh, Edinburgh, United Kingdom 11:00 7E-7 Inducing Intracellular Ros and Cellular Redox without Cell Death in Mesenchymal Cells Using Microsecond-Pulsed DBD Plasma N. Shainsky1, G. Friedman1, G. Fridman2, A. Fridman3, M. J. Steinbeck2, T. A. Freeman4 1Electrical and Computer Engineering, Drexel University, Philadelphia, USA 2School of Biomedical Engineering, Science and Health Systems, Drexel University, Philadelphia, USA 3Mechanical Engineering and Mechanics, Drexel University, Philadelphia, USA 4Department of Orthopaedic Surgery, Thomas Jefferson University, Philadelphia, USA 11:15 7E-8 Influence of Non-Thermal Plasma on Human Cell Activities K. Masur, K. Wende, S. Hasse, A. Barton, L. Bundscherer, S. Reuter, K. -D. Weltman INP Greifswald - ZIK Plasmatis, Greifswald, Germany 125 Technical Program Thursday morning, July 12 11:30 7E-9 Characterisation of Plasmas Created in Conducting Liquids C. P. Kelsey, W. G. Graham Centre for Plasma Physics, Queens University of Belfast, Belfast, Northern Ireland, United Kingdom 11:45 7E-10 Plasma Decontamination of Space Equipment Using Cold Atmospheric Plasmas H. M. Thomas1, S. Shimizu1, T. Shimizu1, T. Klaempfl1, J. L. Zimmermann1, G. E. Morfill2, S. Barczyk2, P. Rettberg2, P. K. Weber3 1Institut fuer extraterrestrische Physik, Max-Planck-Gesellschaft, Garching, Germany 2DLR-Institut fuer Luft- und Raumfahrtmedizin, DLR, Koln, Germany 3Raumfahrtmanagment, DLR, Bonn, Germany 12:00 7E-11 Response of High Blood Glucose Level to Gtem Cell Electromagnetic Fields to Simulate Cell Phone Radiation N. Nattaphong Boriraksantikul1, K. D. Bhattacharyya2, P. J. Whiteside2, P. Kirawanich3, J. A. Viator2, N. E. Islam1 1Department of Electrical and Computer Engineering, University of Missouri-Columbia, Columbia, MO, USA 2Department of Biological Engineering, University of Missouri-Columbia, Columbia, MO, USA 3Department of Electrical Engineering, Mahidol University, Salaya, Nakorn Pathom, Thailand 126 Author Index A A., S. ILYA ............................................... 1P-151 AANESLAND, A. ........................................ 5B-3 ABBASI DAVANI, F. ................ 2P-99, 3P-61 ABDELAZIZ, A. A. ..................................... 1E-5 ABDOU, A. E. ........................ 1P-113, 1P-116 ABE, D. K. ........................................ 6B-5, 7B-1 ABICHT, F. ..................................................2D-7 ABUAZOUM, S. .......................................... 5C-5 ACHTERHOLD, K. .................................... 5C-1 ADAMOVSKY, G. ....................................... 4E-8 ADAMS, S. F. ......................................... 3P-138 ADINEH, V. R. ......................................... 2P-77 AGARWAL, P. ............................................ 3A-6 AGARWAL, V. ......................................... 3P-58 AGHAMIR, M. F. ................................... 1P-140 AGOP, M. ........ 1P-40, 1P-41, 1P-42, 1P-43 AHEDO, E. ................................2P-17, 2P-185 AHMED, H. .................................................4D-2 AKHAVANTABATABAE, B. ............... 3P-91 AKISHEV, Y. S. ............................. 3E-3, 3P-86 AKIYAMA, H. .............. 1P-111, 1P-92, 4A-7 AKIYAMA, M. .............. 1P-111, 1P-92, 4A-7 AKLI, K. U. .............................................. 1P-134 AKMAN, M. A. .........................1P-75, 2P-134 ALAMARGUY, D. .......................................1D-1 ALARIA, M. K. ......................................... 1P-15 ALBERTI, S. ................................................ 4B-1 ALDAN, M. P. ............................ 1P-96, 3P-33 ALEIFERIS, S. ......................................... 3P-50 ALEXEEV, N. V. .................................... 2P-167 ALEXEFF, I. ................................................ 6B-7 ALI, A. ........................................................... 5C-9 ALI, A. A. ................................................... 3P-78 ALLEN, R. ....................................................6D-3 ALLINGER, K. ................................ 2D-7, 5C-6 ALMAKSOUR, K. .......................................1D-1 ALMEIDA, P. G. C. .................... 1B-8, 2P-171 ALSAIF, H. M. .............................................1D-5 ALUMOT, D. ............................................... 6C-5 AMASAKI, S. .......................................... 2P-116 AMDAHL, D. J. .......................... 1P-120, 4C-6 AMIR HAMZEH TAFRESHI, M. ...... 1P-119 AMPLEFORD, D. J. .... 1P-172, 1P-173, 1P174, 3C-7, 3C-8, 3C-9 AN, W. .......................................................... 5C-3 ANDERSON, H. ..................................... 2P-132 ANDRÉ, Y. -B. Y. ........................................ 4A-8 ANG, L. -K. ................... 3P-28, 3P-36, 3P-37 ANNARATONE, B. M. .............................. 3A-7 ANNOU, K. ............................................... 2P-19 ANTAYA, T. ............................................. 3P-51 ANTON, M. .................................................. 2E-7 ANTONOV, O. ........................................... 4D-3 ANTONOVA, T. .............................. 3A-7, 3P-9 ANTONSEN, JR., T. M. ................. 3B-6, 4B-5 ANTONSEN, T. ....................................... 1P-22 ANTONSEN, T. M. .......... 2P-53, 3B-7, 6B-4 AO, T. ................................................ 1C-4, 1C-7 APPELBE, B. ............................................... 4C-1 APPELBE, B. D. ......................................... 4C-4 APRUZESE, J. ............................................ 6D-3 APRUZESE, J. P. ...... 1P-173, 1P-175, 2C-3, 2P-48, 2P-78, 3C-7, 3C-8 ARAD, R. ......................................................6A-4 ARAKAWA, Y. .......................................2P-126 ARBER, T. D. ............................................. 2D-4 AREVALO-TORRES, B. ........................ 3P-95 AROUJALIAN, A. .................................... 3P-89 ARSHADI, A. ............................................ 2P-60 ARTMANN, S. ............................................2A-7 ARTZ, M. ................................................... 3P-51 ARZHANNIKOV, A. V. .............. 3B-3, 3P-40 ASKARI, S. ................................................ 3P-94 ASMUSSEN, J. .......................................2P-170 ASSMANN, W. ........................................... 5C-6 ATANASOVA, M. .................................... 2P-67 ATTRI, P. ................................................2P-139 AUSLAND, J. ..........................................2P-131 AUSTIN, T. ..................................................5A-4 AVALOS-ZUNIGA, R. ............................... 4E-6 AVETISSIAN, A. K. ............... 1P-39, 3P-122 AVETISSIAN, H. K. ............... 1P-39, 3P-122 AVRAMIDES, K. ........................................ 4B-1 AVRAMIDES, K. A. ................................... 1P-4 AVTAEVA, S. .........................................1P-145 AWAKOWICZ, P. .... 2P-144, 2P-60, 2P-74, 3E-4, 6A-6 AZUMAYA, D. .......................................... 1P-92 B BABAEVA, N. Y. ...................................... 1P-82 BACAL, M. ................................................ 3P-50 BACK, T. C. .................................................. 5B-5 BADZIAK, J. .............. 2D-5, 3P-120, 3P-124 BAE, H. W. ....................................... 7A-6, 7A-9 BAE, J. K. ...................................................... 1E-6 BAE, M. K. ................................................ 1P-31 BAEDE, L. .................................................... 7C-5 BAEK, S. -H. ............................................. 1P-57 BAEVA, M. .................................................. 7D-4 BAGDASAROV, G. ................................1P-176 127 Author Index BAGNOUD, V. ............................................ 5C-4 BAI, B. ......................................... 1P-25, 1P-27 BAI, C. ...................................................... 2P-150 BAIG, A. U. .................................................. 5B-8 BAIG, M. A. ............................................. 2P-122 BAIK, K. Y. 2P-149, 2P-159, 2P-160, 4D-5 BAILEY, J. E. ............................................... 1C-4 BAJLEKOV, S. ............................................. 5C-1 BAKSHT, E. H. ...................................... 1P-110 BAKSHT, R. ........................................... 1P-170 BALASTIKOVA, R. ................................. 3P-98 BALDUS, S. ............................................ 2P-144 BALKCUM, A. ............................................. 6B-2 BALLATO, J. ............................................... 2E-8 BAN, S. B. .................................................... 1E-6 BANDOW, J. ............................................... 3E-4 BANDURKIN, I. V. .... 1P-13, 1P-14, 1P-16, 4B-7 BANDYOPADHYAY, M. ............ 1P-36, 4C-8 BANERJEE, D. ......................................... 2P-20 BANG, J. Y. ............................................. 1P-128 BANICI, R. A. .............................................. 3C-3 BAO, C. -Y. ........ 1P-89, 1P-90, 1P-91, 4A-3 BARANKOVA, H. ................................. 3P-104 BARCZYK, S. ............................................ 7E-10 BARDOS, L. ............................................ 3P-104 BAREKZI, N. ......................... 2P-134, 2P-135 BARENGOLTS, S. A. .....1P-114, 1P-56, 2P107 BARJASTEH, A. ...................................... 1P-24 BARNAT, E. V. ........................................... 7A-7 BARNI, R. ..................................... 1P-81, 4D-9 BAROCIO, S. R. ......................... 1P-77, 3P-66 BARTAL, T. ..................................... 1C-1, 2D-1 BARTON, A. .................................. 3P-76, 7E-8 BARTOS, P. .............................................. 3P-99 BASALEEV, E. V. ....................................... 2C-6 BATON, S. ...................................................2D-1 BAUER, B. S. .............................. 1P-120, 4C-6 BAUVILLE, G. .............................................4D-7 BAXTER, E. A. .......... 2P-178, 3P-52, 3P-53 BAXTER, H. ................................................ 7E-6 BAXTER, R. ................................................. 7E-6 BAZALITSKY, G. .......................................4D-3 BEALL, M. ................................................ 1P-48 BEAUDRY, A. ........................................ 1P-134 BEAUVILLE, G. .......................................... 7C-4 BECH, M. ..................................................... 5C-1 BÉCHU, S. ................................................. 3P-50 BECKER, K. H. ........................................... 3E-9 BECKWITH, K. .......................................... 2B-1 BEEBE, S. J. .................................................4A-4 BE'ERY, I. .................................................... 3C-2 BEESON, S. ................................................. 2B-5 BEG, F. ......................................... 2P-97, 2P-98 BEG, F. N. ........... 1C-1, 1P-134, 2D-1, 3C-4 BEHAR, E. ................................................... 3C-2 BELKO, V. ................................ 1P-181, 1P-95 BELL, A. R. ................................................. 2D-4 BELL, C. R. .............................................1P-108 BELL, I. C. ................................................. 2P-41 BELLEI, C. ................................................... 1C-1 BENDOYRO, R. .....................................3P-117 BENDOYRO, R. A. .................... 1P-106, 5C-7 BENHAMOUCHE, N. ...........................1P-145 BENILOV, M. S. 1B-8, 2P-171, 2P-172, 6E2, 7D-6 BENILOVA, L. G. ...................................... 7D-6 BENNETT, M. .................... 3C-4, 4D-1, 6C-3 BENOVA, E. ............................................. 2P-67 BERENDT, A. ............................................ 5D-5 BERGOT, M. ................................................5A-1 BERK, D. ..................................................... 7D-1 BERKER, K. H. ........................................ 3P-73 BERNDT, J. .................................................. 3P-5 BERNINGER, M. J. ................ 1P-118, 3P-56 BERNSHTAM, V. ...................... 3P-137, 6C-5 BETTENCOURT, M. T. ............................7A-7 BHATTACHARYYA, K. D. ........ 4A-5, 7E-11 BHUYAN, H. ............. 1P-149, 2D-3, 2P-123 BIBINOV, N. .............................. 2P-144, 3E-4 BICREL, B. ................................................ 2P-51 BIEDERMAN, H. .................................... 3P-99 BIENHOLZ, S. .............................................6A-6 BIGANZOLI, I. ........................................... 4D-9 BIGONGIARI, A. ...................................2P-129 BILEN, S. G. .............................................. 2P-41 BIN, J. ................................................ 2D-7, 5C-6 BINDSLEV, H. ......................................... 7C-10 BINGHAM, R. .. 1P-133, 1P-59, 2P-34, 2P37, 2P-71, 2P-9, 3P-32 BINNY, D. ................................................... 7D-1 BLAJAN, M. G. ...................... 2P-114, 3P-142 BLAND, S. ..................... 1P-178, 2P-89, 3C-1 BLAND, S N 2P-90, 3C-4, 4D-1, 6C-3, 6C-4 BLANK, M. ............................................... 1P-12 BLANKSON, I. ............................................ 4E-8 BLAZEK, J. ................................................ 3P-99 BLESENER, I. C. ....................... 3P-137, 6C-2 BLESENER, K. S. ...................... 3P-137, 6C-2 BLOCK, D. ................................................... 2B-4 BLOOM, M. ................................ 3P-117, 5C-7 128 Author Index BLUE, B. ....................................................... 6C-2 BLUEM, H. P. .............................................. 7B-7 BOCCHI, M. .................... 1P-178, 3C-4, 4D-1 BOEKE, M. ............................................... 1P-33 BOERNER, J. J. ........................................... 7A-7 BOEUF, J. P. ................................................ 3B-8 BOGAERTS, A. ........................................ 3P-24 BOGOMOLOV, A. ...................................... 7C-7 BOILSON, D. ............................................... 5B-2 BOLDAREV, A. ..................................... 1P-176 BOOM, J. J. ................................................... 7C-7 BOOSKE, J. .................................................. 2B-6 BOOSKE, J. H. .......................................... 3P-44 BOOTH, J. P. .......................................... 3P-135 BOOTH, N. .................................................. 1C-6 BORA, B. ................................................. 1P-149 BORCHARD, P. ....................................... 1P-12 BORGHESI, M. ...........................................4D-2 BORGHI, C. A. ......................................... 1P-87 BORIRAKSANTIKUL, N. ........................ 4A-5 BORODZIUK, S. .........................................2D-5 BOSELLI, M. ......................... 3P-108, 3P-141 BOSWELL, R. W. ....................................... 1A-5 BOTT, S. C. .................................................. 3C-4 BOUAMRANE, F. ...................................... 7B-2 BOUDARHAM, G. ................................. 3P-111 BOUFENDI, L. ............................................ 3P-5 BOURGEOIS, N. ......................................... 5C-1 BOUVET, T. ................................................ 7B-2 BOWDEN, M. D. ...... 2P-110, 2P-72, 2P-76 BOWER, J. S. .......................................... 1P-108 BOWES, D. ............................................... 3P-39 BOXHAMMER, V. ..................................... 2E-7 BOZDUMAN, F. ......................1P-88, 2P-115 BRABETZ, C. .............................................. 5C-4 BRADLEY, J. W. ......................1P-153, 3P-69 BRADY, C. S. ...............................................2D-4 BRAITHWAITE, N. S. ............. 2P-72, 2P-76 BRAITHWAITE, N. S. J. ...................... 2P-110 BRANDENBURG, R. ..............3P-129, 3P-79 BRANDT, P. C. ........................................ 3P-16 BRÄNZEL, J. ...............................................2D-7 BRATMAN, V. ............................................ 6B-3 BRATMAN, V. L. ......... 1P-13, 1P-14, 2P-61 BRELET, Y. Y. ............................................. 4A-8 BRENNER, C. M. .... 1C-6, 2P-117, 2P-118, 2P-119 BRINKMANN, R. P. .. 1P-21, 1P-33, 1P-34, 1P-82, 2P-60, 2P-74, 3P-100, 3P-19 BRINKMANN, R. -P. ..................1P-35, 6A-6 BROMBERG, L. ....................................... 3P-51 BROWN, W. ...........................................2P-177 BROWNING, J. ............ 2P-179, 2P-55, 3P-1 BRUBAKER, E. .......................................... 6D-1 BRUGGEMAN, P. ........................... 5D-3, 7C-5 BRUGGEMAN, P. J. ................................... 2E-6 BRULLE, L. .................................................. 7E-5 BRUNER, N. ............................................... 6D-4 BRUNETTI, E. ........................... 3P-113, 5C-5 BRUNETTI, F. ................................ 3P-4, 7B-3 BRYSON, R. .................... 1P-59, 2P-9, 3P-32 BUCK, A. ...................................................... 5C-1 BUCK, J. ..................................................... 2P-45 BUI, T. ............................ 1P-23, 1P-48, 3P-38 BULSON, J. M. ............................................ 6E-5 BUMBARGER, P. P. .............................2P-179 BUNDSCHERER, L. .................................. 7E-8 BURDAKOV, A. V. .................................. 3P-40 BURDIAK, G. 1P-178, 2P-89, 2P-90, 3C-1, 3C-4, 4D-1, 6C-3 BURDIAK, G. C. .......................................... 6C-4 BURES, B. .................................................... 7C-1 BURES, B. L. ............. 1P-161, 1P-162, 6C-6 BURFORD, C. D. ........................................4A-5 BURKE, A. ................................................ 1P-22 BURMASOV, V. S. .................................. 3P-40 BURT, G. ................................................... 1P-62 BURZA, M. ................ 1C-6, 2P-117, 2P-118 BUSH, I. ...................................................1P-134 BUSSIAHN, R. ............................................ 7E-3 BYEON, Y. -S. .......................................... 1P-37 BYRNS, B. R. ..........................................2P-169 C CABALLERO, L. S. ...................2D-3, 2P-123 CAHILL, A. D. ......................... 2P-83, 3P-132 CAHILL, O. J. ..........................................2P-155 CAI, X. ......................................................1P-100 CAILLIER, B. .........................................2P-133 CAIRNS, R. A. .. 1P-133, 1P-59, 2P-34, 2P37, 2P-71, 2P-9, 3P-32 CAIUT, M. ...............................................2P-133 CALAME, J. P. ............................................. 7B-1 CAMACHO, J. F. ........................ 1P-120, 4C-6 CAMBIER, J. -L. ..........................................5A-6 CAMURLU, E. ........................................2P-115 CANILL, A. D. .......................................... 2P-82 CAO, W. ........................................................ 2E-8 CAO, Y. ....................................................2P-183 CAPDESSUS, R. ....................................3P-123 CAPLINGER, J. E. .................................3P-138 CARBONE, E. A. D. .................... 2P-67, 6B-8 129 Author Index CARBONNEL, J. J. ..................................... 4A-8 CARLSSON, N. ........................................ 3P-44 CARLSTEN, B. ........................................ 2P-52 CARMONA-REYES, J. .............................. 3A-4 CARROLL, D. C. 1C-6, 2P-117, 2P-118, 2P119, 5C-4 CARTWRIGHT, K. L. .................... 7A-1, 7A-3 CARUSO, A. .................................................6D-1 CAUFFMAN, S. ....................................... 1P-12 CAUGHMAN, J. B. O. ................................ 7C-3 CAUSLEY, M. F. ...................................... 1P-45 CERCHEZ, M. .............................................4D-2 CERNAK, M. .......................................... 1P-148 CHABERT, P. ............................. 3P-135, 5B-3 CHAKRABARTI, N. ................. 2P-20, 3P-11 CHAKRABORTY, A. K. ............................ 4C-8 CHAKRABORTY, M. ............................. 1P-36 CHALENSKI, D. ......................................... 6B-1 CHALENSKI, D A ....... 1P-109, 2P-84, 6C-1 CHANG, D. -L. ....................................... 1P-146 CHANG, H. -W. ..........................................5D-9 CHANG, H. Y. .............................................. 2B-9 CHANG, H. -Y. ......................................... 1P-70 CHANG, J. ....................................................1D-7 CHANG, P. C. ........................................... 3P-48 CHANG, Z. .................................. 1P-163, 3D-7 CHARLES, C. ............................................... 5E-2 CHEKHLOV, O. .......................................... 5C-7 CHEKOUR, S. ........................................... 2P-21 CHEMERYS, V. T. ................................. 1P-107 CHEN, C. ...................................1P-134, 3P-84 CHEN, C. D. .................................................2D-1 CHEN, F. X. ................................................. 6C-8 CHEN, G. ......................................................1D-3 CHEN, H. L. ............................................ 1P-150 CHEN, L. ..................................... 1P-17, 1P-93 CHEN, M. ..................................................... 3A-4 CHEN, Q. .................... 1P-91, 3P-105, 3P-96 CHEN, S. ................................................. 1P-163 CHEN, S. H. ............................................ 1P-150 CHEN, S. -H. ............................... 1P-17, 3P-28 CHEN, S. -Y. ................................................ 5A-5 CHEN, W. -C. ..............................................6D-8 CHEN, X. ................................................... 3P-39 CHEN, Z. ..................................... 1C-7, 1P-184 CHENG, C. ............ 2P-142, 2P-145, 3P-103 CHENG, D. .............................................. 2P-113 CHENG, L. .............................................. 1P-160 CHENG, Y. .................................... 1P-45, 7D-7 CHEONG, K. P. ...................................... 1P-112 CHERNETS, I. ....................................... 1P-154 CHERNIN, D. .............................................. 6B-5 CHERNIN, D. P. ...................................... 2P-53 CHERNYAVSKIY, I A ....... 3B-6, 3B-7, 6B-4 CHIA, C. Y. ..............................................1P-112 CHIANG, M. -H. M. -H. .......................... 3P-88 CHIKASUE, M. ........................................ 3P-18 CHIRTSOV, A. S. ..................................... 1P-69 CHITTENDEN, J. .................. 1P-178, 2P-89, 2P-97, 2P-98, 3C-1, 3C-4, 4C-1, 4C-4 CHITTENDEN, J. P. .. 1P-172, 2C-2, 2P-90, 4D-1, 6C-3 CHIU, Y. -M. ............................................. 1P-63 CHO, C. Y. ............. 2P-147, 2P-148, 2P-154 CHO, G. ... 1P-139, 1P-84, 2P-158, 2P-159, 3D-4, 3P-62, 3P-63, 4D-5, 7D-3 CHO, G. S. ................................. 1P-76, 2P-154 CHO, I. ....................................................... 3P-63 CHO, J. .......................................................... 2E-4 CHO, J. H. ........................ 1E-6, 1P-136, 3D-3 CHODUKOWSKI, T. 1P-117, 1P-164, 2D-5, 2P-124 CHOE, W. ..................................................... 2E-3 CHOI, D. -H. ............................... 2P-16, 3P-60 CHOI, D. S. ................................................... 1B-1 CHOI, E. .................................... 2P-160, 3P-63 CHOI, E. H. 1P-37, 1P-76, 2P-139, 2P-140, 2P-147, 2P-149, 2P-151, 2P-152, 3P54, 3P-67, 3P-70, 4D-5 CHOI, E. -H. .1P-139, 2P-158, 3D-4, 3P-62 CHOI, H. -S. ............................. 2P-152, 3P-70 CHOI, J. ....................................................3P-139 CHOI, J. J. .................................... 1P-26, 2P-54 CHOI, J. S. .............................. 2P-147, 2P-160 CHOI, M. J. ................................................... 7C-9 CHOI, M. -S. ...........................................3P-107 CHOI, S. ....................................................... 7D-7 CHONG, Y. K. ............ 1P-168, 1P-173, 2C-3 CHOU, S. -W. ............................. 3P-114, 5C-1 CHOUKOUROV, A. ...............................1P-166 CHOYAL, Y. .............................................. 1P-15 CHRISTLIEB, A. ............ 1P-45, 1P-47, 2B-1 CHRISTLIEB, A. J. .................................. 1P-46 CHU, P. K. .................. 1E-1, 1P-147, 2P-146 CHU, Y. ....................................................2P-183 CHUAQUI, H. ............ 1P-149, 2D-3, 2P-123 CHUGUNOV, V. A. .................................. 3P-86 CHUNG, C. W. ....................... 1P-128, 2P-103 CHUNG, K. -J. ............................. 2P-16, 3P-60 CHUNG, S. S. M. ....................................1P-131 CHUNG, T. H. .......................... 1P-31, 2P-136 130 Author Index CHUVATIN, A. S. .. 2C-1, 2P-78, 2P-87, 2P88, 6C-7 CIARDI, A. ...................................................4D-1 CICERONI, C. .............................................. 7B-3 CIOBOTARU, L. C. .................................... 2P-1 CIOLAN, M. A. ......................................... 3P-68 CIPICCIA, S. ............................... 3P-113, 5C-5 CITRIN, J. .................................................... 6A-4 CLARD, R. W. ........................................ 1P-173 CLARK, D. ................................................ 3P-72 CLARK, D. H. ........................................... 2P-18 CLARK, R. W. 1P-174, 1P-175, 3C-7, 3C-9, 4C-5 CLASSEN, I. G. ........................................... 7C-7 CLEMETT, C. ............................... 2P-48, 6D-3 CLOSE, S. .................................................. 2P-40 COAKER, B. M. ..................................... 1P-108 COFFEY, S. K. ............................ 1P-120, 4C-6 COHEN, J. A. ............................................... 2A-3 COJOCARU, G. V. ....................................... 3C-3 COLAITIS, A. ........................................... 2P-89 COLE, J. ........................................................ 5C-7 COLELLA, P. ............................................ 1P-49 COLEMAN, P. L. ........................................ 7C-1 COLLINS, G. ................................................ 5B-6 COLOMBO, V. .... 2P-174, 3P-108, 3P-141, 7D-2 COMBES, P. ............................... 3C-5, 3P-134 COMMISSO, R. ...........................................6D-3 COMMISSO, R. J. 2P-44, 2P-48, 6D-1, 6D-2 CONDE, L. ................................................... 1A-1 CONSTABLE, D. A. .................. 1P-14, 2P-64 COOK, A. M. ................................................ 7B-1 COOKE, S. J. ..................................1P-20, 3B-7 COOPERSTEIN, G. ....................................6D-5 CORMIER, J. M. ........................ 1E-3, 1P-152 CORNELISSEN, R. .................................... 7E-2 COSTERTON, J. W. ................................... 3E-8 COUDERT, J. -F. ......................................... 6E-6 COURY, M. 1C-6, 2P-117, 2P-118, 2P-119 COVERDALE, C. ................................... 1P-168 COVERDALE, C. A. .... 1P-172, 1P-173, 1P174, 2P-88, 3C-8, 3C-9, 6C-7 COX, L. J. ...................................1P-30, 2P-157 CROMPTON, T. A. ................................. 2P-59 CROSS, A. W. .. 1P-14, 1P-16, 1P-2, 1P-59, 2P-34, 2P-37, 2P-61, 2P-62, 2P-63, 2P-71, 2P-75, 2P-9, 3B-1, 3P-39, 3P45, 4B-6, 7B-10, 7B-6 CROWLEY, B. J. B. ............................... 1P-186 CROZIER, P. S. ........................................... 7A-7 CRUZ-VALLEJO, V. ................................ 3P-66 CUMMINGS, P. G. ................ 2P-127, 3P-116 CUNEO, M. E. 1P-109, 1P-173, 3C-6, 3C-9 CUNHA, M. D. ....................... 2P-171, 2P-172 CUNNINGHAM, S. ................................. 3P-75 CUOMO, J. J. ................................................ 2C-8 CURRY, R. ...............................................2P-177 CZYLKOWSKI, D. .................................2P-141 D DABU, R. ...................................................... 3C-3 DALE, G. E. ................................. 3P-53, 3P-55 D'ANDREA, D. ........................................... 1P-8 DANIELS, S. ...........................................2P-155 DANILA, M. N. ........................................ 3P-22 DANILOVA, M. A. ...................................... 3E-3 DAS, B. K. ................................................. 1P-36 DAS, C. ..........................................................1A-3 DASGUPTA, A. ... 1P-173, 1P-174, 1P-175, 2C-3, 3C-7 DAVID, S. ................................................3P-134 DAVIS, P. ................................................1P-186 DE ANDREA GONZALEZ, A. ... 1P-129, 1P130, 2P-36 DE ANGELIS, M. G. ..............................3P-108 DE ESCH, H. P. L. ...................................... 5B-2 DE GEYTER, N. .......................................... 7E-2 DE GROUCHY, P. ...... 1P-178, 2P-90, 3C-4, 4D-1, 6C-3 DE GROUCHY, P. W. ................................ 6C-4 DE LA PIEDAD BENEITEZ, A. ........... 1P-77 DE LOS ARCOS, T. ................................. 1P-33 DECLERCQ, H. ........................................... 7E-2 DEGNAN, J. H. .... 1P-120, 1P-121, 1P-122, 4C-6 DEGREZ, G. .............................................. 2P-67 DEGROUCHY, P. ..................................... 2P-89 DEKA, P. ..................................... 2P-10, 2P-11 DELIVRE, Q. ..........................................3P-135 DELKASH RUDSARY, N. ..................... 3P-61 DELVAL, C. ................................2P-174, 7D-2 DEMCHENKO, N. .................................2P-124 DEMIDOV, V. ............................. 2B-3, 3P-109 DEMOUCRON, J. ..................................2P-133 DENG, X. T. ................................................. 3E-7 DENISOV, G. G. ....................................... 2P-61 DERZON, D. K. .......................................... 6D-1 DERZON, M. S. .......................................... 6D-1 DERZSI, A. ...................................................7A-2 DESANLIS, T. .......................................... 2P-51 DESJARLAIS, M. P. ....................... 1C-4, 1C-6 131 Author Index DESMET, T. ................................................ 7E-2 DESSANTE, P. ............................................1D-1 DEXPERT-GHYS, J. .............................. 2P-133 DEXTER, A. C. ......................................... 1P-62 DEY, I. ........................................................ 3P-57 D'HUMIERES, E. .................................. 3P-123 DI CARLO, A. ...................... 3P-4, 7B-2, 7B-3 DI STEFANO, C. A. ....................................2D-6 DI, L. -B. .................................................. 1P-146 DIAMY, A. -M. ......................................... 1P-51 DIAS, J. M. ................................................... 5C-7 DIAZ, A. ..................................................... 3P-56 DICKENS, J. ................................................. 4A-1 DICKENS, J. C. ............................................ 1P-5 DIECKMANN, M. E. ..................................4D-2 DIMITRIU, D. G. ......... 1P-40, 1P-41, 1P-42 DING, H. .................................................. 3P-143 DING, K. .................................................... 3P-93 DING, L. .................................................... 1P-25 DING, N. ...................................... 2P-91, 2P-93 DING, W. -J. ........................................... 1P-180 DING, Z. F. ................................................ 1P-68 DIVER, D. A. .......................................... 1P-156 DOBRYGIN, W. ....................................... 3P-19 DOBRYNIN, D. 1A-7, 1P-155, 1P-38, 7E-4 DOEPP, A. .............................................. 3P-117 DOEPPNER, T. ...................................... 1P-134 DOLLAR, F. J. ........................................ 2P-127 DOMANSKI, J. ....................................... 3P-124 DOMENECH, J. L. ...................................... 1A-1 DOMIER, C. W. ................... 7C-7, 7C-8, 7C-9 DOMONKOS, M. T. .................. 1P-120, 4C-6 DONALDSON, C. .................................... 3P-45 DONALDSON, C. R. ...................... 4B-6, 7B-6 DONEGAN, M. ........................................... 4E-9 DONG, B. .................................................. 1P-28 DONG, Z. ...................................................... 1B-4 DONKO, Z. ................................................... 7A-2 DONNE, A. J. ............................................... 7C-7 DONNE, A. J. H. ......................................... 7C-9 DONOHUE, J. T. ...................................... 3P-46 DONOSO, J. M. ........................................... 1A-1 DORIA, D. ....................................................4D-2 DORON, R. ................................. 3P-137, 6A-4 DORS, M. ................... 2P-141, 3P-131, 5D-5 DOUAT, C. ................................................... 7C-4 DOUGLASS, A. ........................................... 3A-4 DOWLING, D. P. ........................................ 4E-9 DOYLE, H. ................................................ 2P-89 DOZIAS, S. ...................................................3D-5 DRAKE, R. P. ..............................................2D-6 DREXLER, G. A. ......................................... 5C-6 DU, C. -R. ...................................... 3A-7, 3P-10 DU, F. ............................................................ 1C-6 DUAN, R. ................................................2P-166 DUBRUEL, P. .............................................. 7E-2 DUCHATEAU, G. .................................... 2P-51 DUENNBIER, M. .......................... 3D-1, 6D-7 DUFFIELD, M. J. ..................................... 2P-59 DUHOVNIK, J. ............... 2P-14, 2P-15, 5A-8 DUMLER, K. ............................................... 2E-7 DURAND, A. J. ............................................ 7B-2 DURNIAK, C. ................................ 2P-30, 3P-6 DUROT, C. J. ................................................ 5E-7 DVORAK, P. ...........................................3P-133 DYATCHENKO, S. ................................1P-176 DZELZAINIS, T. W. J. ............................... 1C-3 E EDEN, G. ................................................... PL2-1 EDEN, J. G. ..1B-1, 1E-6, 1E-7, 1P-136, 2E4, 3D-3, 4D-8, 6E-5, 6E-8 EDIE, D. J. ....................................................5A-2 EFIMOV, S. ................................................. 4D-3 EHLBECK, J. ............................................. 3P-80 EICHHOFF, D. ........................................... 1D-8 EL OTELL, Z. ........................................... 2P-72 ELLIOTT, K. ................................................ 7C-1 ELLIS, M. ...................................... 2P-48, 6D-3 ELLISION, L. ............................................... 5E-1 ELYIV, A. .....................................................2A-8 EMELYANOV, O. ................... 1P-181, 1P-95 EMSELLEM, G. .......................................... 5E-4 ENNIS, G. J. ............................................3P-110 EPISKOPOU, E. ....................................... 3P-43 EREMIN, D. ...1P-33, 1P-34, 1P-35, 2P-60, 3P-19, 6A-6, 7A-2 ERMOLAEVA, S. A. ................................... 3E-3 EROFEEV, M. V. ...................................1P-110 ERSFELD, B. .............................. 3P-113, 5C-5 ESAULOV, A. A. ....2C-1, 2P-78, 2P-87, 2P88, 6C-7 EVANS, M. ..............................................1P-171 EVERLEIGH, C. ....................................... 2P-54 EXUM, A. B. .............................................. 2P-18 F FADEEV, A. A. .......................................2P-167 FAEHL, R. J. .......................... 1P-132, 3P-121 FAIRCHILD, S. B. .......................... 5B-4, 5B-5 FALCE, L. ..................................................... 5B-6 FAMPRIS, X. S. ........................................ 2P-64 132 Author Index FANG, J. . 1E-4, 3E-9, 3P-73, 3P-81, 3P-82, 3P-83, 3P-85, 4A-4, 4A-6 FANG, M. -Y. ............................................ 1P-89 FANG, S. .................................................. 2P-142 FARIA, M. J. ................................................ 1B-8 FARRELL, W. ............................................. 2B-3 FAVRE, M. 1P-149, 2D-3, 2P-123, 3P-127 FAZEL, S. .................................................. 3P-89 FEDOSEEV, A. V. ...................... 2P-23, 2P-24 FEDOSEJEVS, R. ....................... 1P-134, 5C-9 FEDOTOV, A. ............................................. 6B-3 FELCH, K. ................................................. 1P-12 FENG, C. .................................................. 3P-143 FENG, H. 3E-9, 3P-73, 3P-81, 3P-82, 4A-4, 4A-6 FERGUSON, P. ........................................ 2P-57 FERNANDEZ-GUTIERREZ, S. A. ...... 2P-55 FICHTL, C. A. .............................................. 7A-8 FIERRO, A. S. ............................... 1D-2, 1P-98 FIGOTIN, A. ................................................ 1P-6 FISCH, N. J. .................................................. 5E-1 FISHER, A. .......................................3C-2, 6C-5 FIUZA, F. ................................................ 1P-133 FLEMING, T. P. .......................................... 3B-5 FLETCHER, A. ........................................ 2P-40 FLEURY, M. ................................................ 7C-4 FLIPPO, K. ...................................................2D-1 FLIPPO, K. A. .............................................. 4C-3 FOJTIKOVA, P. ........................................ 3P-98 FONTECCHIO, A. ...................................... 1A-7 FOORD, M. E. ............................................. 1C-1 FORGET, M. ........................................... 2P-180 FORTOV, V. E. ... 1C-5, 2P-25, 2P-26, 3A-2, 3P-12 FOSTER, J. E. ............ 1P-157, 2P-181, 4E-8 FOSTER, P. ................................................. 5C-7 FOURMAUX, S. .......................................... 5C-9 FOWLER, C. ........................................... 2P-110 FOX, N. A. ............................................... 2P-110 FRANK, A. ....................................... 3C-4, 4D-1 FRANK, K. ................................................ 1P-98 FRANZI, M. A. ............................................ 6B-1 FREDERIC, Z. ........................................ 3P-134 FREEMAN, R. R. ....................... 1P-134, 2D-1 FREEMAN, T. A. ........................................ 7E-7 FREIRE, M. ................................................. 3E-8 FRENCH, D. ..................................2P-58, 6B-1 FRENCH, D. M. ............................2P-65, 3B-5 FRESE, M H 1P-120, 1P-123, 1P-124, 4C-6 FRESE, S D 1P-120, 1P-123, 1P-124, 4C-6 FRIDMAN, A. ... 1A-7, 1P-154, 1P-155, 1P38, 7E-4, 7E-7 FRIDMAN, G. ............................. 1P-155, 7E-7 FRIEDL, A. A. ............................................. 5C-6 FRIEDMAN, G. ............................... 1A-7, 7E-7 FRIESEN, H. ..........................................1P-134 FROLOV, O. ............................................1P-166 FRUCHTMAN, A. .......................... 5E-3, 6A-4 FRYXELL, B. .............................................. 2D-6 FUELING, S. R. ........................................... 4C-6 FUELLING, S. ........................................1P-120 FUJINO, T. ...................................................4A-2 FUKS, M. .......................................... 1P-7, 3B-2 FUKUNAGA, H. .....................................2P-114 FURUSATO, T. ...........................................4A-7 FURUYA, S. .............................................. 2P-79 G GAENSBACHER, B. .................................. 2E-7 GAILLARD, S. ............................................ 2D-1 GAILLARD, S. A. ........................................ 4C-3 GALBREATH, D. ............................ 1P-7, 3B-2 GALE, D. ..................................................1P-122 GALE, D. G. ................................. 1P-120, 4C-6 GALINSKY, V. .............................. 2A-2, 2P-35 GALL, B. B. ................................. 3P-53, 3P-55 GALLIAN, S. ............................... 1P-33, 1P-34 GALLIMORE, A. D. ............4E-2, 5E-6, 5E-7 GALTIE, A. ............................................... 2P-51 GALVIN, S. .............................................2P-155 GANACHEV, I. P. ....................................... 2B-8 GANDINI, F. ................................................ 4C-7 GANEEV, R. A. ......................................2P-128 GANS, T. ...................1P-53, 2P-157, 3P-110 GANTENBEIN, G. .......................... 4B-1, 4B-4 GAO, F. ...................................................... 3P-49 GARCIA DE GORORDO, A. ................2P-102 GARDELLE, J. ............................ 3P-46, 3P-47 GARNER, C. P. ............................................ 7C-2 GARUCHAVA, D. P. .............................3P-118 GASILOV, V. ...........................................1P-176 GE, N. ......................................................... 1P-89 GEIGER, R. ................................................. 5D-7 GENSHEIMER, P. D. ................................. 3B-5 GENTLE, K. W. .....................................2P-102 GERICKE, D. O. ............. 1C-3, 1P-186, 5A-2 GERLING, M. D. ........................................ 6D-1 GESCHE, R. .............................................. 2P-60 GHASEMI, M. ......................... 1P-153, 1P-85 GHAZARYAN, A. G. ............................... 1P-39 133 Author Index GHEDINI, E. 2P-174, 3P-108, 3P-141, 7D2 GHERARDI, M. .. 2P-174, 3P-108, 3P-141, 7D-2 GHOSH, S. ................................................ 3P-11 GIBSON, A. R. .......................................... 3P-78 GIESECKE, A. L. ........................................4D-2 GILBURD, L. ...............................................4D-3 GILCHRIST, B. E. ..................... 2P-41, 3P-26 GILGENBACH, R. ...................................... 6B-1 GILGENBACH, R. M. . 1P-109, 2P-84, 6C-1 GILLESPIE, K. M. 1P-59, 2P-34, 2P-37, 2P71, 2P-9, 3P-32 GINZBURG, N. S. . 2P-56, 3B-1, 4B-7, 7B-9 GIRALDEZ, E. .............................................2D-1 GIRSHICK, S. L. .......................................... 3A-6 GISSIS, I. ...................................................... 3C-2 GIULIANI, J. ........................................... 1P-168 GIULIANI, J. L. ... 1P-172, 1P-173, 1P-174, 1P-175, 2C-3, 3C-7, 3C-8, 3C-9, 4C-5 GLEIZER, J. Z. ........................................ 3P-126 GLEIZER, S. ................................................ 5E-5 GLEIZES, A. ........................................... 3P-111 GLENZER, S. .......................................... 1P-186 GNAPOWSKI, S. B. .............................. 1P-111 GOEL, A. ................................................... 2P-40 GOETT, G. .............................................. 2P-175 GOGOI, L. B. ............................................. 2P-11 GOH, T. ...................................................... 1P-92 GOLD, S. H. ................................................. 6B-6 GOLINGO, R. P. ....................................... 2P-94 GOLOVKIN, I. .......................................... 2P-87 GOLOVKIN, I. E. ..................................... 2P-78 GOMES, J. G. L. ...................................... 2P-171 GONZALES, X. ....................................... 2P-132 GORBACHEV, A. M. ................................. 6B-6 GORENSTEIN, A. Y. .................................4D-4 GÖTT, G. ......................................................1D-8 GOUDA, A. M. ........................................ 3P-125 GOUDKET, P. .......................................... 1P-62 GOURDAIN, P. ...................................... 1P-171 GOURDAIN, P. A. ..................... 1P-183, 4D-4 GRABOVSKIY, A. ................................. 3P-109 GRABOWSKI, C. . 1P-120, 1P-121, 1P-122 GRABOWSKI, T. C. ................................... 4C-6 GRACEFFA, J. ............................................. 5B-2 GRAHAM, W. ........................................ 2P-121 GRAHAM, W. G. ... 1P-159, 1P-30, 2P-157, 3P-78, 7E-9 GRANATSTEIN, V. L. ............................... 7B-5 GRANDGIRARD, V. .................................. 5A-1 GRANT, D. W. ............................................ 5C-5 GRAUPNER, K. .......................................... 7C-2 GRAVES, D. ................................ 3P-71, 3P-72 GRAY, R. J. 1C-6, 2P-117, 2P-118, 2P-119 GRAZIANI, F. R. .........................................7A-8 GREB, A. .................................................3P-110 GREEN, J. S. ................................................ 5C-4 GREENLY, J. ...........................................1P-171 GREENLY, J. B. .............. 1P-183, 4D-4, 6C-2 GREENWOOD, A. ................................... 1P-47 GREENWOOD, A. D. ................................ 3B-5 GREGORI, G. ...................1C-3, 1C-4, 1P-186 GRIMOLDI, E. ......................................... 1P-81 GRISHAM, L. R. ......................................... 5B-2 GRISWOLD, M. .......................................... 5E-1 GROSSKOPF, M. J. ................................... 2D-6 GROTJOHN, T. A. .................................2P-163 GRUNDE, M. ............................................ 3P-92 GRUNENWALD, J. .................................... 3C-5 GRUSHIN, M. E. ........................... 3E-3, 3P-86 GU, Y. .......................................................2P-170 GUAITELLA, O. ....................................... 1P-28 GUAN-JUN, Z. ............................................ 1D-4 GUCKER, S. ................................................. 4E-8 GUCLU, Y. ..................................... 3P-23, 5A-5 GUERRO-PRESTON, R. ........................... 2E-1 GUILLOT, P. ...........................................2P-133 GUIMARÃIS, L. .....................................3P-144 GULATI, P. ............................................... 1P-79 GULEC, A. ................................ 1P-88, 2P-115 GUO, J. .............................................. 4A-4, 4A-6 GUO, Y. ..........................1B-6, 2P-108, 3P-93 GUPTA, D. N. .........................................3P-115 GUPTA, S. B. ............................................ 3P-31 GURLUI, S. O. .......................................... 1P-43 GUROVICH, V. T. ...................................... 4D-3 GUSKOV, S. Y. .......................................2P-124 GUSS, W. C. ................................................. 4B-3 GUTSOL, A. F. ........................................... 7D-9 GUY, A. ......................................................... 1E-3 GUZMAN, F. ...............................2D-3, 2P-123 GWEON, B. .................................................. 2E-3 GYERGYEK, T. ........................................ 2P-13 H HABS, D. ...................................................... 5C-6 HAGEN, C. ..............................................1P-118 HAHM, T. S. ...........................................1P-127 HAI-BAO, M. .............................................. 1D-4 HAJIHASSANI, N. ................................... 2P-99 HALL, E. .................................................... 3P-14 134 Author Index HALL, G. ........... 1P-178, 2P-89, 3C-1, 3C-4 HALL, G. N. ........... 2P-90, 4D-1, 6C-3, 6C-4 HALLMAN, E. ............................................. 2B-1 HALLO, L. ................................................. 2P-51 HALLOCK, A. .............................................. 5E-4 HALLOCK, G. A. .................................... 2P-102 HAMAGUCHI, Y. ....................................... 4A-2 HAMMER, D. ......................................... 1P-171 HAMMER, D. A. .... 2P-82, 2P-83, 3C-5, 3P132, 3P-136, 3P-137, 4D-4, 6C-2 HAMMER, M. U. ........................................3D-1 HAN, G. -H. ............. 1P-139, 1P-84, 2P-158 HAN, J. -G. ............... 1P-142, 1P-143, 3P-74 HAN, S. ......................................1P-84, 2P-158 HAN, Y. .................................................... 2P-139 HAN, Y. G. ....................................................4D-5 HANG, X. Z. .............................................. 1P-97 HANIF, M. .............................................. 2P-122 HÄNSCH, M. ...............................................3D-1 HANSEN, S. B. . 1C-4, 1P-172, 1P-173, 1P174 HANZLIKOVA, N. .................................. 1P-58 HAO, B. ................................................... 1P-180 HARDING, E. C. ......................................... 1C-4 HARLE, T. ................................................ 2P-72 HARPER-SLABOSZEWICZ, V. ..............6D-1 HARRIS, B. .................................................. 3A-4 HARRIS, J. .............................................. 1P-186 HARRY, J. E. ................................................ 7C-2 HARVEY-THOMPSON, A. ...1P-178, 2P-90 HARVEY-THOMPSON, A. J. ... 2P-89, 4D-1, 6C-3, 6C-4 HASHIZUMI, H. ......................................... 2E-5 HASSE, S. ..................................................... 7E-8 HATFIELD, L. L. ......................... 1D-2, 1P-98 HAWKES, S. ................................................ 5C-7 HAYASHI, T. .......................................... 2P-116 HE, G. ....................................................... 2P-138 HE, W. .... 1P-14, 2P-34, 2P-61, 2P-62, 2P63, 2P-64, 3P-39, 3P-45, 4B-6, 7B-10, 7B-6 HEBERT, D. ............................................. 2P-51 HECHTFISCHER, U. ................................. 6E-2 HECIMOVIC, A. ...................................... 1P-33 HEIDEMANN, R. ....................................... 3P-7 HEIGOLDT, M. .......................... 3P-114, 5C-1 HEILIGER, C. ........................................... 1P-61 HEMKE, T. ................................. 1P-35, 1P-82 HEMSWORTH, R. S. ................................. 5B-2 HENRICH, R. ........................................... 1P-61 HEO, J. .......................................................... 6E-4 HERDRICH, G. ...........................................1A-1 HERNANDEZ-ARIAS, A. N. ................ 1P-77 HERON, A. ..............................................2P-129 HERRING, C. M. ......................................... 6E-5 HERSHKOWITZ, N. ................... 1P-44, 6A-1 HEY, D. ....................................................1P-134 HICKS, R. F. ................................................ 2C-5 HIDAKA, K. ................................1D-4, 1P-101 HIGGINSON, D. .......................................... 1C-1 HIGGINSON, D. P. ....................1P-134, 2D-1 HILLS, R. G. .................................................7A-3 HILZ, P. ........................................................ 5C-6 HILZ, P. B. .................................................. 2D-7 HINSHELWOOD, D. .................. 1P-99, 6D-3 HINSHELWOOD, D. D. . 2P-48, 6D-5, 7A-3 HIRAOKA, Y. .............................................. 7C-6 HITCHON, W. N. G. ..... 1P-33, 3P-23, 5A-5 HIZANIDIS, K. ........................... 2P-69, 2P-70 HOARE, D. ................................................... 7C-2 HOCHHAUS, D. C. ................................1P-186 HOCK, C. .................................................1P-103 HODER, T. ..............................................3P-129 HOEFT, H. ..............................................3P-129 HOFF, B. ...................................................... 6B-1 HOFF, B. W. ................................................ 3B-5 HOFMANN, S. ............................................ 2E-6 HOGGE, J. -P. .................................. 1P-4, 4B-1 HOHENBERGER, M. ............................. 2P-89 HOLLOWAY, J. A. ...................................... 5C-8 HOLST, B. ...............................................1P-184 HONG, E. J. .............................................1P-151 HONG, J. -W. .............................................. 5D-8 HONG, S. H. ............................................1P-128 HONG, Y. -K. .............................................. 5D-8 HOOKER, C. ................................................ 5C-7 HOOKER, S. ................................................ 5C-1 HOOPER, R. ................................................7A-7 HOPKINS, M. M. ............................ 7A-1, 7A-7 HOPKINS, P. L. ..........................................7A-1 HOPWOOD, J. .............................. 3P-92, 5B-7 HORA, H. ..................................................... 4C-3 HORI, M. .................... 2E-5, 2P-109, 2P-116 HOSKINSON, A. R. ..................... 3P-92, 5B-7 HOU, L. .........................................................3A-7 HOUARD, A. A. ..........................................4A-8 HOULAHAN JR., T. J. ............................... 4D-8 HOYT, C. L. 2P-82, 2P-83, 3P-132, 3P-136 HRACH, R. .................... 1P-51, 3P-21, 3P-27 HRACHOVA, V. ......................... 1P-32, 1P-51 HROMADKA, J. ....................................... 3P-21 HRUBY, V. ................................................ 3P-27 135 Author Index HRYCAK, B. .......................... 2P-141, 3P-131 HSIEH, A. -H. ..............................................5D-9 HSIEH, C. -H. ..............................................6D-8 HSU, C. -C. ....................................... 1P-9, 5D-9 HU, J. ........................................................ 2P-106 HU, K. ........................................................... 2A-3 HU, M. -H. ........................................ 5A-9, 5D-2 HU, X. -W. ................................................. 3P-30 HU, Z. -H. ................................................ 1P-179 HUANG, C. ..................................... 2P-52, 5C-3 HUANG, J. ................................................. 2P-93 HUBBLE, A. A. ...................................... 2P-181 HUDAK, S. J. ............................................... 2C-8 HUERTA, M. A. ....................................... 1P-67 HUGHES, M. ............................................ 2P-45 HUGHES, M. C. ....................................... 2P-94 HUMBLE, N. ............................................... 5C-6 HUMPHREY, K. A. ............................... 1P-133 HUMPHREYS, H. ................................. 2P-155 HUNG HUNG, C. -T. .................................. 5A-9 HUNG, C. -T. .............................. 1P-50, 1P-63 HUO, W. G. ............................................... 1P-68 HUR, J. ....................................................... 1P-57 HUR, M. ......................... 1P-80, 2P-22, 3P-59 HUTCHESON, A. L. .................... 2P-48, 6D-1 HUTCHINSON, A. .....................................6D-3 HUTSEL, B. T. .........................2P-178, 3P-52 HUWEL, L. ............................................. 2P-121 HWANG, I. U. ........................................ 3P-106 HWANG, Y. S. .......................................... 2P-16 HWANG, Y. -S. ........................................ 3P-60 HYDE, T. W. ................................................ 3A-4 ISHIHARA, O. .......................................... 3P-18 ISHIKAWA, K. ........................... 2E-5, 2P-116 ISHIKAWA, M. ...........................................4A-2 ISHIZAWA, H. ............................................4A-7 ISLAM, M. R. ..........................................3P-113 ISLAM, N. E. ..................... 1D-5, 4A-5, 7E-11 ISLAM, R. ..................................................... 5C-5 ISMAIL, M. I. ..........................................1P-113 ISSAC, R. C. ................................................. 5C-5 ITO, M. .............................................. 2E-5, 3E-5 IVANOV, I. ..............................................1P-181 IVANOV, I. A. ........................................... 3P-40 IVANOV, O. A. ............................................ 6B-6 IVANTSIVSKY, M. V. ............................. 3P-40 IVES, L. .......................................... 3P-38, 5B-6 IVES, R. L. ..................... 1P-23, 1P-48, 2P-57 IVLEV, A. .....................................................3A-7 IVLEV, A. V. ................... 2B-2, 3P-10, 3P-16 IWATA, M. ............................................... 2P-96 IZA, F. .............................. 1B-2, 3P-20, 3P-84 J JABLONSKI, S. ......... 2D-5, 3P-120, 3P-124 JACKSON, R. ............................................ 1P-23 JACKSON, R. H. 2P-57, 3P-35, 3P-38, 7B-7 JACKSON, S. ............................................... 6D-3 JACKSON, S. L. ................ 2P-48, 6D-1, 6D-2 JACOBS, T. ................................................... 7E-2 JACOBY, J. .............................. 1P-102, 1P-103 JAEGGI, C. ................................................... 7D-2 JAIN, V. ...................................................... 3P-58 JAMES, C. R. ................................................ 6C-6 JAMESH, M. I. ....................... 1P-147, 2P-146 JANA, D. C. ..................................................1A-3 JANAKI, M. S. .......................................... 2P-20 JANG, S. .................................. 3P-102, 3P-106 JANG, S. H. .................................. 1P-26, 2P-54 JANG, S. O. ..............................................1P-151 JANG, Y. -C. ................................................. 7E-1 JARAMILLO, D. E. ..................................... 3E-8 JAROSZYNSKI, D. A. ................................ 5C-5 JARROTT, C. ..........................................1P-134 JARROTT, L. ............................................... 1C-1 JARROTT, L. C. .......................................... 2D-1 JARVIS, K. ................................................. 3P-91 JARVIS, K. L. ............................................... 4E-3 JASIńSKI, M. ......................... 2P-141, 3P-131 JAVEY, A. ..................................................... 7B-4 JELIć, N. .................................................... 2P-14 JELIC, N. ........................................ 2P-15, 5A-8 JELONNEK, J. ................................. 1P-4, 4B-1 I IANNI, E. .....................................................4D-2 IBEHEJ, T. .................................. 3P-21, 3P-27 IBERLER, M. ........................ 1P-102, 1P-103 IBRAHIM, O. A. ..........................................1D-5 IBSCHER, D. ............................................... 2A-8 IKAWA, S. ................................................... 3E-5 IKEDA, H. ............................................... 1P-101 IKENAGA, N. ......................................... 1P-141 ILLY, S. ................... 1P-11, 1P-4, 4B-1, 4B-2 ILYENKO, K. ............................................ 2P-50 IM, S. -Y. .................................................. 2P-140 INADA, Y. ............................................... 1P-101 INOKUCHI, M. ........................................... 4A-7 INTRATOR, T. P. ...................... 1P-120, 4C-6 IOANNIDIS, Z. C. ...................... 1P-10, 1P-11 IQBAL, J. ................................................... 2P-12 ISENI, S. ....................................................... 2E-6 136 Author Index JENKINS, T. ................................................ 5A-4 JENNEWEIN, D. ........................................ 1A-1 JENNINGS, C. A. .................. 1P-172, 1P-173 JEON, B. ........................................ 3P-63, 7D-3 JEON, H. G. ........... 2P-147, 2P-148, 2P-154 JEON, J. ...................................................... 3P-77 JEON, Y. M. .................................................. 7C-9 JEONG, H. J. ............................................ 2P-105 JIA, F. ............................................................ 2E-5 JIA, S. .........................................2P-111, 2P-95 JIA, S. X. ..................................................... 1P-83 JIANG, C. ........................................ 3E-8, PL6-1 JIANG, J. ..................... 1P-106, 3P-117, 5C-7 JIANG, W. .................................3P-128, 3P-30 JIANG, Y. M. ........................................... 1P-158 JIMENEZ_DIAZ, M. ....................... 2B-7, 6B-8 JIN, B. ......................................................... 1P-93 JIN, J. ............................................................. 4B-1 JIN, L. -H. .................................................. 1P-89 JO, C. ............................................................. 2E-3 JO, T. .......................................................... 3P-63 JOGLEKAR, A. S. ........................................ 1C-2 JOH, H. M. ............................................... 2P-136 JOHNSTON, M. D. .....................................6D-4 JONES, A. ..................................................... 7E-6 JONES, B. 1P-172, 1P-173, 2C-1, 3C-8, 3C9 JONES, B. M. .............................. 1P-174, 3C-7 JONSSON, P. ............................................... 3P-3 JOO, H. -W. .................................................. 2E-4 JOSHI, C. ...................................................... 5C-3 JOYE, C. D. ................................................... 7B-1 JUGROOT, M. ........................................ 2P-180 JUN-BO, D. ..................................................1D-4 JUNG, E. Y. .............................................. 1P-138 JUNG, H. ....................................................... 2E-3 JUNG, R. ...................................... 2P-160, 4D-5 KANG, S. O. .............................................. 3P-54 KANG, W. S. ................. 1P-80, 2P-22, 3P-59 KANKA, A. ................................................ 1P-32 KANTSYREV, V. L. 2C-1, 2P-78, 2P-87, 2P88, 6C-7 KAPADIA, R. ............................................... 7B-4 KARIMAN, B. S. ....................................1P-140 KARKARI, S. K. ......................... 1A-6, 2P-100 KARPINSKI, L. ......................................1P-117 KARRELS, D. R. ......................................... 3B-5 KARSCH, S. ................................ 3P-114, 5C-1 KASHYN, D. ................................................ 7B-5 KASPERCZUK, A. .... 1P-164, 2D-5, 2P-124 KATSUKI, S. ................................................4A-7 KAUSHIK, N. ............................................. 4D-5 KAUSHIK, N. K. ................... 2P-139, 2P-159 KEIDAR, M. ...... 1P-71, 2E-1, 2P-161, 5E-8 KEIM, S. F. ...................... 2P-78, 2P-88, 6C-7 KELLETT, B. ............................................ 2P-34 KELLETT, B. J. .......................... 2P-37, 2P-71 KELLY, S. .................................................. 1P-54 KELSEY, C. P. ............................ 1P-159, 7E-9 KEMP, A. ..................................................... 2D-1 KEMP, E. .................................................1P-134 KEMP, G. E. ................................................ 2D-1 KERN, S. ........ 1P-4, 1P-8, 4B-1, 4B-2, 4B-4 KERSTEN, H. ..................................3A-1, 6D-6 KETTLE, B. ................................................. 1C-3 KETTLITZ, M. .......................................3P-129 KEY, M. ........................................................ 2D-1 KEY, M. H. .................................. 1C-1, 1P-134 KHACEF, A. ................................ 1E-3, 1P-152 KHAN, S. D. ............................................1P-163 KHIMCHENKO, L. N. ............................... 2C-6 KHISHCHENKO, K. V. ........................1P-185 KHOLODENKO, V. P. ............................ 3P-86 KHOORI, E. .............................................. 2P-89 KHOORY, E. .... 1P-178, 2P-90, 3C-4, 4D-1, 6C-3, 6C-4 KHOSHDUNI FARAHANI, M. ..........1P-119 KHRAPAK, S. ..............................................3A-5 KHRENNIKOV, K. .................... 3P-114, 5C-1 KHRUSTALYOV, Y. V. ........................... 2P-28 KIEFER, D. ...................................... 2D-7, 5C-6 KIEFFER, J. -C. ........................................... 5C-9 KIM, B. ......................................... 3P-53, 3P-55 KIM, B. H. ................................................. 3P-52 KIM, C. -K. ................................................ 3P-74 KIM, D. ........................................... 2E-3, 3P-63 KIM, D. B. .................................................... 2E-3 KIM, D. G. ................................................. 2P-22 K K K, M. ..................................................... 3P-112 KAGANOVICH, I. ..... 2P-184, 3P-109, 6A-1 KAISER, C. .................................... 2P-68, 6E-3 KALARIA, K. ............................................ 3P-31 KALINOWSKA, Z. .. 1P-117, 1P-164, 2D-5, 2P-124 KALYNOV, Y. K. ...................................... 1P-13 KAMINSKY, A. K. ...................................... 4B-7 KANEKO, K. ................................................ 3E-5 KANG, H. .........................................3D-4, 7D-3 KANG, H. R. ............................................. 1P-31 KANG, H. S. ............................................ 1P-144 137 Author Index KIM, D. H. .............................. 1P-128, 2P-103 KIM, D. -K. ................................................ 1P-57 KIM, D. W. ................................................... 2B-9 KIM, E. S. ..................................................... 1B-1 KIM, G. -H. .......... 3P-107, 5D-8, 6A-5, 7E-1 KIM, H. ....................... 1P-139, 2E-3, 2P-159 KIM, H. J. ................................................... 1P-26 KIM, H. -S. .............................................. 1P-127 KIM, I. ........................................................ 3P-63 KIM, I. M. ................................................ 1P-144 KIM, J. .......................3D-4, 3D-4, 7D-3, 7D-3 KIM, J. E. ......................................................4D-4 KIM, J. H. ..................................... 1P-137, 2B-9 KIM, J. -H. ...................................... 1P-70, 2E-4 KIM, J. Y. ...................................................... 2E-8 KIM, K. .................................................... 1P-127 KIM, K. -H. .................................................. 7E-1 KIM, K. -M. .. 1P-143, 2P-140, 2P-151, 2P152, 3P-70, 3P-74 KIM, K. N. ....................................................4D-5 KIM, K. -N. .. 1P-142, 1P-143, 2P-140, 2P151, 2P-152, 3P-67, 3P-70, 3P-74 KIM, K. -T. .............................................. 1P-144 KIM, M. ............................................ 2E-3, 7C-9 KIM, M. H. ................................................... 1E-6 KIM, M. -T. .................................................. 6E-4 KIM, N. -K. .................................................. 6A-5 KIM, S. ....................................................... 3P-74 KIM, S. -E. ............................................... 1P-142 KIM, S. H. .................................................. 2P-54 KIM, S. J. ..................................... 1P-26, 2P-54 KIM, S. -O. ................................................... 2E-8 KIM, Y. ................... 1P-139, 2P-158, 2P-159 KIM, Y. C. .............. 2P-147, 2P-148, 2P-154 KIM, Y. -G. ................................................... 6E-4 KIM, Y. H. 1P-76, 2P-140, 2P-149, 2P-151, 3P-67 KIM, Y. K. ................................................ 2P-147 KIM, Y. S. ............................... 1P-128, 2P-103 KIM, Y. -W. ............................................. 3P-106 KING, M. 1P-133, 1P-59, 2P-71, 2P-9, 3P32 KINKEAD, A. K. ......................................... 6B-6 KIRAWANICH, P. .................................. 7E-11 KIREEV, G. V. .......................................... 3P-86 KIRKPATRICK, M. J. ....................1D-1, 5D-4 KIRKPATRICK, R. C. .......... 1P-132, 3P-121 KIRKWOOD, S. ..................................... 1P-184 KIRLEY, M. P. .......................................... 3P-44 KIRTLEY, D. .......................................... 1P-125 KISHI, Y. ................................................. 1P-141 KISHKO, S. .................................................. 6B-7 KITANO, K. ................................................. 3E-5 KITSINELIS, S. ......................................1P-135 KIUTTU, G. F. ........... 1P-120, 1P-121, 4C-6 KLAEMPFL, T. ........................................ 7E-10 KLEIN, S. R. ............................................... 2D-6 KLING, R. ....................................... 2P-68, 6E-3 KLIR, D. .................................. 1P-117, 1P-164 KNAPEK, C. A. ............................. 2P-30, 3A-9 KNAPP, P. F. ............................................ 2P-82 KNECHT, S. D. ......................................... 2P-94 KNEIP, S. .................................... 3P-117, 5C-7 KNOWLES, L. ........................................2P-179 KO, F. H. ..................................................1P-150 KOBAYASHI, A. ................... 2P-162, 2P-173 KOBAYASHI, K. ....................................3P-101 KOBZEV, E. N. ......................................... 3P-86 KOEPKE, M. ................................................ 2B-3 KOEPKE, M. E. ........................................ 2P-71 KOGA, K. .................................................2P-109 KOH, W. S. ............................... 1P-180, 3P-28 KOIZUMI, H. ..........................................2P-126 KOLACEK, K. .........................................1P-166 KOLGANOV, N. G. .................................. 2P-61 KOMINIS, Y. .............................. 2P-69, 2P-70 KOMPANEETS, R. 2P-4, 2P-5, 2P-6, 3A-7, 3P-29 KOMURASAKI, K. ............... 2P-125, 2P-126 KONDO, H. .............................................2P-116 KONG, J. .......................................................3A-4 KONG, M. ..... 2P-150, 3P-20, 3P-84, PL1-1 KONG, M. G. ........................ 1B-2, 3E-7, 4D-6 KONOPKA, U. .............................................3A-9 KONOPLEV, I. V. .......... 1P-2, 2P-62, 2P-63 KOO, J. H. ........................................ 3D-4, 7D-3 KOOREY, E. ................................................ 3C-1 KORSHOLM, S. B. .................................. 7C-10 KORTSHAGEN, U. .................................... 2B-3 KOS, L. ......................................... 2P-14, 2P-15 KOSTAS, C. ................................. 1P-20, 1P-22 KOSTORA, M. ........................................1P-122 KOSTORA, M. R. ...... 1P-120, 1P-121, 4C-6 KOSTYRYA, I. D. .................................... 3P-64 KOTELNIKOV, I. A. .................................. 3B-3 KOTIRANTA, M. ........................................ 7B-2 KOURAKIS, I. ............. 2P-120, 2P-38, 4D-2 KOURTZANIDIS, K. .................................. 3B-8 KOUSAL, J. ............................................... 3P-99 KOVAčIč, J. ............................................... 2P-13 KOVACEVIC, E. .......................................... 3P-5 138 Author Index KOVALESKI, S. D. .. 2P-178, 3P-52, 3P-53, 3P-55 KOZAKOV, R. ................ 1D-8, 2P-175, 7D-4 KRAMER, A. ............................................ 3P-76 KRAMER, G. J. ............................................ 7C-8 KRASIK, Y. .................................................. 5E-5 KRASIK, Y. E. ............................ 3P-126, 4D-3 KRASNOZHENOV, E. P. ....................... 3P-65 KRAULAND, C. M. ....................................2D-6 KRAUS, D. ................................................... 1C-3 KRAUSZ, F. ................................ 3P-114, 5C-1 KRAUZ, V. I. ........................................... 1P-117 KRAVARIK, J. ........................................ 1P-117 KRCMA, F. ................................................ 3P-98 KREK, J. ........................................................ 5A-8 KRETSCHMER, M. ................................... 3P-9 KREUZER, C. ..............................................2D-7 KRISHNAN, M. 1P-161, 1P-162, 6C-6, 7C1 KRISTIANSEN, M. ........................ 1P-5, 4A-1 KROUPP, E. .................... 3C-6, 3P-137, 6C-5 KROUSKY, E. ............................. 2D-5, 2P-124 KROWKA, J. ................................................ 6E-6 KROZER, V. ................................................. 7B-2 KRYGIER, A. ...............................................2D-1 KUBES, P. .............................. 1P-117, 1P-164 KUCHARIK, M. ..........................................2D-5 KUDRYAVTSEV, A. A. .......................... 1P-69 KUHN, S. ................................................... 2P-14 KULESHOV, A. ........................................... 6B-7 KULIKOVA, N. ........................................ 2P-43 KUMADA, A. .............................. 1D-4, 1P-101 KUMAR, A. .................................... 3P-15, 3P-8 KUMAR, N. .................................................. 3P-8 KUMAR, V. .................................................. 3P-8 KUNDRAPU, M. .................................... 2P-161 KUO, S. P. .................................................... 2A-3 KUPCZYK, B. .............................................. 2B-6 KUPRIYANOV, I. B. .................................. 2C-6 KURANZ, C. C. ............................................2D-6 KURBANOGLU, C. ............................... 2P-115 KURBATOVA, L. A. .................................. 2C-6 KURITA, H. .............................................. 3P-75 KURIYAMA, M. .......................................... 5B-2 KUROKI, T. ................................................. 4E-7 KURZ, A. ......................................................1D-8 KUSHNER, M. ......................................... 2P-74 KUSHNER, M. J. .......................... 1P-82, 3D-5 KUSSE, B. ............................................... 1P-171 KUSSE, B. R. .................. 1P-183, 4D-4, 6C-2 KUWAHARA, T. ........................................ 4E-7 KUWATA, T. ............................................... 3E-5 KUZNETSOV, S. A. ................................. 3P-40 KWAN, T. J. T. ......................................... 2P-52 KWEK, K. H. ............................................ 2P-90 KWON, G. ................................................. 3P-63 KWON, G. C. ............................................... 4D-5 KWON, G. -C. ............................................. 7D-3 KWON, J. ..................................... 3P-53, 3P-55 KWON, J. -S. 1P-142, 1P-143, 2P-140, 2P151, 2P-152, 3P-67, 3P-70 KWON, J. W. ............................................ 3P-52 KWON, O. ...............................................1P-127 L LACKMANN, J. -W. ................................... 3E-4 LACOSTE, A. ............................................ 3P-50 LACOSTE, D. A. .............................1A-4, 5D-4 LAFLEUR, T. A. ..........................................1A-5 LAI, J. ............................................................ 7C-8 LAITY, G. R. ................................. 1D-2, 1P-98 LAKE, P. W. ............................................... 6D-1 LAMBRECHT, M. ...................................... 3B-5 LAMPPA, D. C. ......................................1P-172 LAN, Y. ....................................................3P-103 LANCASTER, K. L. .............. 2P-117, 2P-118 LANGE, H. ................................................... 3E-6 LANGE, M. A. .................................. 5B-4, 5B-5 LAPPAS, V. ............................................... 2P-72 LAROUSSI, M. ........1P-75, 2P-134, 2P-135 LASSONDE, P. ............................................ 5C-9 LATA, P. .................................................... 1P-15 LATSAS, G. P. .......................................... 1P-10 LATU, G. .......................................................5A-1 LAU, Y. .......................................................... 6B-1 LAU, Y. Y. ...................... 1P-109, 2P-84, 6C-1 LAURITA, R. ......................... 3P-108, 3P-141 LAUX, C. O. ......................................1A-4, 5D-4 LAZAR, M. ................................................ 2P-39 LAZARIAN, A. ............................................2A-6 LAZOVIC, S. ............................................. 1P-86 LE PAPE, A. ................................................ 7E-5 LE PAPE, S. ............................................1P-186 LE, P. -S. .................................................... 1P-90 LEACH, C. ........................................ 1P-7, 3B-2 LEBDEV, S. V. ............................................ 4D-1 LEBEDEV, S. ...................1P-178, 3C-1, 3C-4 LEBEDEV, S. V. .. 2P-89, 2P-90, 6C-3, 6C-4 LEE, D. H. ................................ 1P-144, 1P-80 LEE, D. -H. ................................................... 2E-8 LEE, E. -J. ................................................2P-151 LEE, H. .....................................................3P-106 139 Author Index LEE, H. J. ................... 2E-3, 6E-4, 7A-6, 7A-9 LEE, H. -J. ................. 6E-4, 6E-8, 7A-6, 7A-9 LEE, J. .......................................... 1P-127, 7C-9 LEE, J. H. ...................................................... 7C-9 LEE, J. K. ................................................. 2P-105 LEE, J. -M. .................................................... 2E-4 LEE, J. O. ................................................... 2P-22 LEE, J. -O. .................................................. 3P-59 LEE, J. Y. ................................................. 2P-149 LEE, J. -Y. ..................................................... 7A-6 LEE, K. D. ................................................ 1P-128 LEE, K. J. ......................................................4D-5 LEE, M. ..................... 1P-84, 2P-158, 2P-159 LEE, M. -C. ............................2A-3, 2P-2, 2P-3 LEE, N. ...................................................... 2P-40 LEE, O. -J. ..................................................... 2E-4 LEE, P. ..................................................... 1P-165 LEE, S. ..................................................... 1P-113 LEE, S. -B. ............................................... 1P-143 LEE, S. -H. .................................. 3P-107, 5D-8 LEE, S. W. ....................................................7D-8 LEE, S. Y. ................................................... 2P-22 LEE, W. .............................................7C-7, 7C-9 LEE, W. -J. .............................................. 1P-127 LEE, W. Y. ................ 1P-84, 2P-158, 2P-159 LEE, Y. ....................................................... 3P-60 LEEM, S. H. ............................................ 2P-136 LEGRAND, J. -C. ..................................... 1P-51 LEIPOLD, F. ............................................. 7C-10 LEJEUN, A. L. ............................................. 5E-1 LEMKE, R. W. ............................................ 1C-4 LEMOS, N. ................................................... 5C-7 LEOU, K. -C. ................................................6D-8 LEPAROUX, M. ......................... 2P-174, 7D-2 LEPELL, P. D. ............................................. 1C-4 LERAY, A. .................................................... 1E-3 LERMA, A. ............ 1P-120, 1P-121, 1P-122 LERONDEL, S. ........................................... 7E-5 LEVKO, D. .............................................. 3P-126 LEVUSH, B. 1P-20, 2P-53, 3B-6, 3B-7, 6B2, 6B-4, 6B-5 LEWIS, C. L. S. ........................................... 1C-3 LEYS, C. ............................................ 3B-9, 7E-2 LHO, T. .................................................... 1P-151 LI, B. ..............................................................4D-8 LI, C. ......................................................... 3P-143 LI, D. ..........................................2P-150, 3P-39 LI, F. ................................................3P-73, 4B-1 LI, H. ..............................1D-6, 1P-94, 2P-182 LI, H. -P. 1P-89, 1P-90, 1P-91, 4A-3, 7D-6 LI, J. . 1P-52, 2P-142, 2P-143, 2P-145, 2P161 LI, J. W. ...................................................... 2P-66 LI, L. .......................................... 1P-104, 1P-27 LI, M. .......................................................... 2P-85 LI, R. .........................................................2P-111 LI, X. ....... 1D-7, 1P-1, 2P-111, 2P-95, 4E-5 LI, X. -S. ...................................................1P-146 LI, Y. ............................... 2P-118, 3E-2, 3P-77 LI, Y. -F. ..................................................... 3P-87 LI, Y. T. ....................................................2P-119 LIANG, Y. ............. 1E-4, 3E-9, 3P-73, 3P-82 LIAO, G. -C. .............................................. 3P-88 LIAO, M. ................................. 1P-105, 2P-164 LIAW, D. C. ............................................... 3P-26 LIKHANSKII, A. .......................... 3D-8, 3P-97 LILLY, R. ......................................................5A-3 LIN, K. -M. ........................ 1P-50, 5A-9, 5D-2 LIN, M. C. 1P-18, 1P-19, 1P-26, 3P-34, 3P48 LIN, M. -C. ...................................................6A-3 LIN, P. A. ................................................... 3P-15 LIN, X. X. ............... 2P-117, 2P-118, 2P-119 LINDEQUIST, U. ..................................... 3P-76 LINDSAY, A. ..........................................2P-169 LINGWOOD, C. J. .................................... 1P-62 LINK, A. .......................................1P-134, 2D-1 LISIN, E. A. ................................. 3P-12, 3P-13 LISINA, I. I. ............................................... 3P-13 LISKA, R. .................................................... 2D-5 LISTER, G. G. ........................................... 2P-76 LIU, C. -T. ...................................... 3P-88, 5D-2 LIU, D. ............. 2P-150, 3D-9, 3P-20, 3P-84 LIU, D. X. ...................................................... 1B-2 LIU, F. ........................................................... 1B-3 LIU, H. .......................... 1D-6, 1P-94, 2P-182 LIU, J. ..................................1D-6, 1P-94, 4E-5 LIU, K. ......................................................1P-104 LIU, L. ..................................... 2P-101, 3P-140 LIU, M. .....................................................1P-160 LIU, T. M. .................................................. 3P-26 LIU, X. ......................................................3P-140 LIU, Y. .......................................... 3P-36, 3P-37 LIU, Z. ....................................... 3P-105, 3P-96 LOBAEV, M. ................................................ 6B-6 LOCKWOOD, N. P. ............ 3B-5, 5B-4, 5B-5 LODES, A. ...............................................2P-177 LOISCH, G. ............................ 1P-102, 1P-103 LOMBAERT, K. .......................................... 1E-3 LOO, S. M. ...............................................2P-179 LOPES, N. ...............................................3P-117 140 Author Index LOPES, N. C. .............................. 1P-106, 5C-7 LOPEZ-CALLEJAS, R. ............. 1P-77, 3P-66 LOVERICH, J. .................................. 2B-1, 5A-4 LOW, C. H. .............................................. 1P-112 LOW, K. S. .............................................. 1P-112 LOW, K. W. ............................................ 1P-112 LOWRIE, W. ............................................ 2P-94 LOYAN, A. ................................................... 5E-5 LOYEN, A. ................................................... 3C-5 LU, J. ...........................................2P-170, 3P-82 LU, P. S. ..................................................... 3P-48 LU, W. ........................................................... 5C-3 LU, X. ............................... 2E-2, 2P-138, 3D-2 LUCHINSKAYA, E. ................................. 2P-65 LUCYSZYN, S. ......................................... 3P-43 LUDEKING, L. ............................................ 6B-5 LUDEKING, L. D. .................................... 1P-67 LUGINSLAND, J. ..........................2P-65, 6B-1 LUHMANN JR, N. C. ................................. 7C-7 LUHMANN, JR., N. C. ....................7C-8, 7C-9 LUO, H. 1A-2, 1P-72, 2P-80, 2P-81, 2P-92 LUO, H. Y. ................................................. 1P-73 LUO, J. ..................................... 1P-126, 2P-143 LUTZ, S. .................................................... 3P-56 LYNEIS, C. M. ............................................. 5B-1 LYNN, A. G. ................................ 1P-120, 4C-6 LYNN, C. ...................................................... 4A-1 MAMUN, A. A. ......................................... 2P-33 MANGLES, S. P. D. ................... 3P-117, 5C-7 MANKELEVICH, Y. .................................. 5D-6 MANNAN, A. ........................................... 2P-33 MANOLACHE, S. ..................................2P-115 MANOLESCU, A. ....................................... 3P-3 MANSO, M. ............................................3P-144 MAO, Z. ...................................................3P-128 MARAGANI, S. B. ...................................... 1E-2 MARDAHL, P. J. ......................................... 3B-5 MARION, D. C. .......................................... 2D-6 MARIOTTI, D. ......................................... 3P-94 MARISCAL, D. ............... 2P-97, 2P-98, 3C-4 MARON, Y. 3C-6, 3P-137, 6A-4, 6C-5, 6D4 MARSDEN, D. ............................................ 5B-6 MARTEL, E. ................................................ 7E-5 MARTIN, E. H. ........................................... 7C-3 MARTIN, P. ................................................ 6D-3 MARTIN, P. N. .......................... 2P-46, 2P-48 MARTIN, R. S. ............................................5A-6 MARTIN, V. ................................................ 4D-7 MASHAL, A. ...........................................1P-159 MASON, A. .................................................. 7C-2 MASON, R. J. ......................... 1P-132, 3P-121 MASOOD, W. ........................................... 2P-12 MASSON-LABORDE, P. -E. .................... 5C-9 MASUR, K. .........................3D-1, 3P-76, 7E-8 MATHESON, K. ........................ 1P-16, 2P-71 MATSUMOTO, Y. .................................2P-137 MATSUO, J. ................................................ 7D-7 MATSUOKA, S. .....................................1P-101 MATSUZAKI, H. ...................................2P-109 MATTHEWS, L. .........................................3A-4 MATYASH, K. ............................................. 5E-1 MAUNIER, C. ........................................... 2P-51 MAURICOT, R. ......................................2P-133 MAURY, P. .................................. 3C-5, 3P-134 MAY, P. W. .............................................2P-110 MAZOUFFRE, S. ........................................ 5E-1 MCCARTHY, H. ....................................... 3P-78 MCCONVILLE, S. L. .. 1P-59, 2P-34, 2P-37, 2P-71, 2P-9, 3P-32 MCCULLOUGH, J. ...................................... 4C-6 MCCULLOUGH, J. L. ............................1P-120 MCDONNELL, C. ..................................2P-155 MCELHINNEY, P. ............ 3P-45, 4B-6, 7B-6 MCGUFFEY, C. ........................................... 1C-1 MCKAY, K. ................................................... 1B-2 MCKEEVER, K. .......................................... 1C-3 MCKENNA, J. ........................................... 3P-94 M MA, R. .......................................... 3P-73, 3P-82 MA, T. .......................................... 1P-186, 2D-1 MA, W. ............................................. 2D-7, 5C-6 MACCHI, A. ............................................ 3P-119 MACFARLANE, J. J. ................. 2P-78, 2P-87 MACGEARAILT, N. ............................. 3P-110 MACHERET, S. ..........................................3D-8 MACINNES, P. .......................... 2P-62, 2P-63 MACLELLAN, D. .................................. 2P-119 MACLELLAN, D. A. .......................1C-6, 5C-4 MADDEN, R. ............................................... 7C-1 MADDEN, R. E. ..........................................4D-1 MAGUIRE, P. ........................................... 3P-94 MAHADEVAN, D. ................................. 1P-112 MAHADEVAN, K. ......................................4D-1 MAJEWSKI, P. .............................. 3P-91, 4E-3 MAKAROV, M. ........................................... 1E-3 MAKHALOV, P. ......................................... 6B-3 MAKRINICH, G. ......................................... 5E-3 MALETIC, D. ........................................... 1P-86 MALKIN, A. M. .............................2P-56, 7B-9 MALOVIC, G. ........................................... 1P-86 141 Author Index MCKENNA, P. . 1C-6, 2P-117, 2P-118, 2P119, 5C-4 MCLEAN, H. ...............................................2D-1 MCLEAN, H. S. ...................................... 1P-134 MCTERNAN, J. K. ................................... 2P-41 MCWILLIAMS, A. J. .................................. 2C-8 MEEHAN, T. .......................................... 1P-118 MEGTERT, S. ............................................. 7B-2 MEHLHORN, T. ...................................... 1P-99 MEHLHORN, T. A. .................................... 6A-4 MEHRENBERGER, M. ............................. 5A-1 MEIERBACHTOL, C. S. ...................... 2P-163 MEIGE, A. .................................................... 5B-3 MEISER, D. ................................................. 2B-1 MEKLER, K. I. ......................................... 3P-40 MENDONCA, C. ............................. 1P-7, 3B-2 MENDOZA-GONZALEZ, N. ....................7D-1 MENG, S. J. .................................................. 6C-8 MENG, Y. ............................... 2P-142, 2P-153 MENG, Y. D. .......................... 1P-158, 3P-103 MENSINK, R. ..............................................5D-3 MEO, F. ..................................................... 7C-10 MERCADO-CABRERA, A. ...... 1P-77, 3P-66 MERINO, M. .......................................... 2P-185 MESYATS, G. ........................................... PL5-1 MESYATS, G. A. ..... 1P-114, 1P-56, 2P-107 MEUNIER, J. -L. .........................................7D-1 MEYER, H. E. .............................................. 7A-7 MICHALSKI, D. .......................................... 5C-6 MICHELSEN, P. K. ................................. 7C-10 MICHIGAMI, K. ..................................... 2P-126 MICHNO, M. ............................................... 2A-5 MIHAILOVA, D. ...................................... 2P-67 MIKLASZEWSKI, R. ............................ 1P-164 MILEY, G. H. ............................................... 4C-3 MILLER, S. .................................................. 5A-3 MILOSAVLJEVIC, V. ................................. 4E-9 MIN, B. K. ................................................. 3P-54 MINELLI, M. .......................................... 3P-108 MINEO, M. ...................................... 3P-2, 7B-2 MINIATI, F. ................................................. 2A-8 MIRZANEJHAD, S. ................................. 1P-85 MISHAKIN, S. V. ..................................... 2P-61 MISHIN, E. .................................................. 2A-2 MISHIN, S. N. .......................................... 2P-83 MITCHELL, L. ............................................6D-3 MITCHELL, L. J. ...................................... 2P-48 MITEA, S. ............................................... 2P-110 MITRA, A. ................................................. 3P-87 MITRA, S. ................................................. 3P-94 MITROFANOV, K. N. .......................... 1P-117 MIYAHARA, H. .....................................2P-137 MIZERACZYK, J. ...... 2P-141, 3P-131, 5D-5 MIZUNO, A. ............................................. 3P-75 MKRTCHIAN, G. F. ............... 1P-39, 3P-122 MKRTCHYAN, M. M. ............................. 1P-20 MO, L. ........................................................ 2P-86 MO, M. .....................................................1P-134 MO, M. Z. ..................................................... 5C-9 MOCHIZUKI, Y. ......................................... 4E-1 MODIN, P. .................................. 3P-46, 3P-47 MOHAMED, A. E. .................................1P-113 MOHAMED, B. ......................................3P-125 MOHAPATRO, S. ....................................... 1E-2 MOISAN, M. ............................... 2P-156, 3E-1 MOLLS, M. ................................................... 5C-6 MOLNAR, S. ...........................................1P-118 MONTANO, N. J. ...................................1P-122 MONTGOMERY, E. ................................... 5B-6 MONTOYA, T. .......................................1P-122 MOON, S. -K. ..........................................2P-140 MOON, S. Y. ................................................ 2E-3 MOORE, C. H. .............................................7A-7 MORAITOU, M. D. ................................. 1P-10 MORALES-RAMIREZ, P. R. ................ 3P-66 MORELL, A. ................................................ 3C-5 MORENT, R. ............................................... 7E-2 MORFILL, G. ... 2B-4, 3B-9, 3E-2, 3P-5, 3P71, 3P-77, 3P-9 MORFILL, G. E. ... 2B-2, 2E-7, 2P-30, 3A-7, 3P-10, 3P-16, 3P-87, 7E-10 MORGAN, T. J. ......................................2P-121 MORI, W. B. ................................................ 5C-3 MOROZOV, D. ............................. 2P-42, 6A-2 MOSHER, D. ................................ 2P-48, 6D-3 MOTALLEBI, S. ...................................... 1P-85 MOTOHASHI, M. ..................................3P-130 MOTRESCU, I. ......................................... 3P-68 MU, H. B. ................................................... 1P-97 MUGGLI, P. ................................................. 5C-3 MUJAWAR, M. A. ......................................1A-6 MUKHACHEV, A. Y. ................................. 3E-3 MUKHERJEE, S. .......... 1P-60, 3P-31, 3P-58 MULLEN, J. J. A. M. V. D. ...................... 2P-67 MUNOZ-CASTRO, A. E. .......... 1P-77, 3P-66 MUNZ, C. -D. ................................... 7A-4, 7A-5 MURADIA, S. .............................................. 4E-1 MURAKAMI, N. ...................................... 2P-94 MURILLO, M. S. .........................................7A-8 MURPHY, A. B. .......................................... 6E-7 MURPHY, C. D. .....................................1P-186 MURPHY, D. .............................................. 6D-3 142 Author Index MURPHY, D. P. ............... 2P-44, 6D-1, 6D-2 MUSSENBROCK, T. .. 1P-21, 1P-33, 1P-34, 1P-35, 1P-82, 2P-60, 2P-73, 2P-74, 3P-19, 6A-6, 7A-2 MUSSON, L. C. ............................... 7A-1, 7A-7 MUSTAFAEV, A. .................................. 3P-109 MUSTAFAEV, A. S. ................................ 1P-69 MUZICHENKO, A. D. ............................... 2C-6 MYERS, E. R. ..............................................6D-1 MYSYROWICZ, A. A. ................................ 4A-8 NICA, P. E. .................... 1P-41, 1P-42, 1P-43 NICULESCU, O. .. 1P-40, 1P-41, 1P-42, 1P43, 3P-22 NIE, Q. -Y. ....................... 1P-90, 1P-91, 4A-3 NIELSEN, S. K. ........................................ 7C-10 NIEMI, K. ................................. 1P-53, 3P-110 NIETO-PEREZ, M. ...................... 3P-95, 4E-6 NIKOLAEV, G. N. ....................................... 2C-6 NILSON, P. M. ........................................... 2D-6 NINDRAYOG, A. S. ...............................3P-119 NING, W. .................................................2P-104 NIRENBERG, G. ....................................1P-154 NISHIO, M. ............................................... 2P-96 NOBEL, M. ............................................... 3P-92 NORBERTO-ESPINOSA, A. ................... 4E-6 NORFOLK, M. .......................................2P-132 NORGARD, P. ............................ 3P-53, 3P-55 NORREYS, P. .........................................1P-133 NORREYS, P. A. ........................................ 2D-1 NOSENKO, V. .............................. 2B-4, 3P-10 NOTLEY, M. ............................................... 4D-2 NOVIKOV, V. .........................................1P-176 NOWAK GUCKER, S. M. ....................1P-157 NUSINOVICH, G. .................................... 2P-57 NUSINOVICH, G. S. ....................... 4B-5, 7B-5 N NA, B. K. ....................................................... 2B-9 NA, Y. -S. ................................................. 1P-127 NAGATSU, M. .............................. 3P-68, 4E-1 NAJMUDIN, Z. ............................................ 5C-7 NAKADA, H. .......................................... 3P-130 NAKAJIMA, T. ......................................... 3P-75 NAKAMURA, H. ................................... 3P-117 NAKASHIMA, H. .................................... 3P-57 NAKASHIMA, N. .................................. 2P-137 NAKHLEH, C. W. ....................................... 3C-6 NAM, Y. ........................................................ 7C-9 NAM, Y. W. ............................................. 1P-128 NASERI, N. .................................................. 5C-9 NATTAPHONG BORIRAKSANTIKUL, N. .............................................................. 7E-11 NAVARRO, J. ......................................... 2P-185 NEDANOVSKA, E. ............................... 2P-121 NEELY, D. 1C-6, 2P-117, 2P-118, 2P-119, 4D-2, 5C-4 NEILSON, P. ............................................ 3P-97 NELIS, D. .....................................................7D-2 NELSON, B. A. ......................................... 2P-94 NELSON, E. .............................................. 1P-22 NEMCOVA, L. ........................................ 1P-159 NERSISYAN, G. ......................... 1C-3, 2P-121 NEUBER, A. .................................... 1P-5, 2B-5 NEUBER, A. A. .................1D-2, 1P-98, 4A-1 NEUDORFER, J. ............................. 7A-4, 7A-5 NEUMAYER, P. ..................................... 1P-186 NG, A. ............................. 1C-7, 1P-184, PL3-1 NG, A. K. F. ............................................. 1P-112 NGUYEN, A. ................................................ 3E-8 NGUYEN, K. ................................................ 6B-5 NGUYEN, K. T. ........................................... 6B-2 NI, G. H. ................................................... 1P-158 NIAN, W. ..................................................... 4A-6 NIASSE, N. 1P-172, 2P-90, 3C-1, 3C-4, 4C1 NIASSE, N. P. L. ......................................... 2C-2 O O HARE, N. .............................................2P-155 OBERRATH, J. ........................... 1P-21, 3P-19 O'CONNELL, D. ....1P-30, 2P-157, 3P-110, 3P-78 O'CONNOR, N. ......................................2P-155 ODIC, E. ........................................... 1D-1, 5D-4 OEGUEN, C. M. .......................................... 6E-3 OEHMIGEN, K. ....................................... 3P-79 OFFERMANN, D. T. .................................. 4C-3 OGINO, A. ...................................... 3P-68, 4E-1 OH, H. J. ..................................................... 3P-54 OH, J. -S. .................................................... 3P-69 OH, T. ............................................................ 1E-7 OHSHIMA, T. .............................................. 3E-5 OHTA, T. ...................................................... 2E-5 OKINO, A. ...............................................2P-137 OKSUZ, L. ................................ 1P-88, 2P-115 OKUBO, M. .................................................. 4E-7 OLIVER, B. V. .................... 6D-1, 6D-2, 6D-4 OLKHOVSKAYA, O. .............................1P-176 OLSON, K. M. .......................... 2P-178, 3P-52 OLSZEWSKI, P. ......................................... 3D-6 O'MALLEY, J. ............................... 2P-48, 6D-3 O'NEILL, C. .............................................. 1P-53 143 Author Index O'NEILL, D. T. ............................................ 4E-9 ONG, B. ......................................................... 2B-1 ORAZOV, M. ............................................ 3P-71 ORESHKIN, V. ....................................... 1P-170 OSBORNE, G. C. . 2C-1, 2P-78, 2P-88, 6C-7 O'SHEA, P. .................................................. 5B-6 OSHITA, T. ............................................. 2P-137 OSIN, D. ............................................3C-6, 6C-5 OSTERMAYR, T. .......................................2D-7 OSTRIKOV, K. ......................................... PL1-2 OTANI, Y. .................................................... 1E-5 OTTEN, A. ................................................... 1C-3 OTTINGER, P. ......................................... 1P-99 OTTINGER, P. F. .............2P-47, 6D-5, 7A-3 OUART, N. .............................................. 1P-174 OUART, N. D. ........... 1P-173, 1P-175, 3C-7 OUDINI, N. .................................................. 5B-3 OVTCHINNIKOV, S. .............................. 1P-22 OVTCHINNIKOV, S. G. ......................... 1P-20 OZAKI, T. ................................................ 1P-163 PARK, M. .................................................. 1P-70 PARK, S. ....................................................... 2E-3 PARK, S. -J. .1B-1, 1E-6, 1E-7, 1P-136, 2E4, 3D-3, 6E-5, 6E-8 PARK, Y. -S. ................................ 2P-16, 3P-60 PARRISH, K. ..........................................2P-179 PARRY, B. .................................................... 5C-7 PARSON, J. M. ............................................ 1P-5 PARYS, P. ................................................... 2D-5 PASLEY, J. ..............................................1P-134 PASOUR, J. .................................................. 6B-5 PASOUR, J. A. ............................................. 6B-2 PATANKAR, S. ........................................ 2P-89 PATEL, P. ................................... 1C-1, 1P-134 PATEL, P. K. .............................................. 2D-1 PATEL, S. G. ................. 1P-109, 2P-84, 6C-1 PATTATHIL, R. ......................................... 5C-7 PATTISON, L. K. ...................................1P-186 PAVLOVICH, M. ..................................... 3P-72 PEARLMAN, M. ......................................... 3P-1 PEDERSEN, A. ........................................... 3P-3 PEDROW, P. D. .......................................... 1B-5 PEGORARO, F. ......................................3P-119 PEKKER, M. ............................................. 1P-38 PENA-EGUILUZ, R. ................. 1P-77, 3P-66 PEPITONE, K. ......................................... 3P-47 PERELSTEIN, E. A. ................................... 4B-7 PEREZ, F. .................................................... 2D-1 PERNI, S. ......................................... 3E-7, 4D-6 PERSAUD, A. .............................................. 7B-4 PERSHING, D. ............................................ 6B-5 PERTOT, Y. ............................................1P-163 PESKOV, N. Y. ............................................ 4B-7 PETERKIN, R. E. ....................................... 3B-5 PETILLO, J. .................................. 1P-22, 6B-5 PETILLO, J. J. ........................................... 1P-20 PETROV, O. F. . 2P-25, 2P-26, 3A-2, 3P-12 PETROVIC, Z. L. ..................................... 1P-86 PETRYAKOV, A. V. ..................... 3E-3, 3P-86 PFAFF, M. ...............................................1P-125 PFEIFER, M. ..............................2D-5, 2P-124 PFEIFFER, F. .............................................. 5C-1 PHAM HUU, T. ......................................1P-152 PHAM, H. ................................................2P-131 PHELPS, A. D. R. 1P-133, 1P-16, 1P-2, 1P59, 2P-34, 2P-37, 2P-61, 2P-62, 2P63, 2P-71, 2P-75, 2P-9, 3B-1, 3P-32, 3P-39, 3P-45, 4B-6, 7B-10, 7B-6, PL41 PHIPPS, A. R. .............................................. 1P-2 PHIPPS, D. ................................................. 6D-3 P PADUCH, M. ......................... 1P-117, 1P-164 PAGONAKIS, I. .............................. 4B-1, 4B-2 PAGONAKIS, I. G. ....................... 1P-11, 1P-4 PAI, D. Z. ...................................................... 1A-4 PAL, U. M. ................................................. 3P-31 PAL, U. N. ..................... 1P-74, 1P-79, 2P-49 PALIWODA, M. C. .................................. 2P-94 PAN, C. L. ................................................ 1P-131 PAN, H. ............................................. 4A-4, 4A-6 PAN, J. ........................... 3P-81, 3P-83, 3P-85 PANAGOS, D. .......................................... 1P-22 PANCOTTI, A. ....................................... 1P-125 PANDEY, B. P. ........................... 2P-31, 2P-32 PAOLONI, C. ................................... 3P-2, 7B-2 PAPADOPOULOS, A. ............................ 2P-70 PAPANTONIS, S. .................................... 3P-43 PARK, B. ............... 2P-147, 2P-148, 2P-154 PARK, B. C. .................................................4D-5 PARK, B. J. ...................................................4D-5 PARK, C. -H. ................................................ 2E-4 PARK, C. -S. .......................... 1P-137, 1P-138 PARK, D. ................................................. 1P-155 PARK, G. ................................................. 2P-158 PARK, G. S. ..................................................4D-5 PARK, H. D. ............................................ 1P-137 PARK, H. K. ......................................7C-7, 7C-9 PARK, J. H. ............................................... 1P-37 PARK, J. S. .............................................. 1P-151 PARK, J. Y. .............................................. 3P-106 144 Author Index PHLIPS, B. ...................................................6D-3 PHLIPS, B. F. ............................... 2P-48, 6D-1 PICKWORTH, L. ..... 1P-178, 2P-89, 2P-90, 3C-1, 4D-1, 6C-3 PICKWORTH, L. A. ........................3C-4, 6C-4 PIHL, C. ................................................... 1P-125 PIKUZ, S. A. ..... 2P-82, 2P-83, 3P-132, 3P136, 4D-4 PING, Y. ....................................... 1P-134, 2D-1 PIOSCZYK, B. ................................. 1P-4, 4B-1 PIQUEMAL, A. C. ................................. 3P-111 PISARCZYK, P. .......................... 2D-5, 2P-124 PISARCZYK, T. ........ 1P-164, 2D-5, 2P-124 PISZARCZYK, T. ................................... 1P-117 PITZ, R. W. ............................................. 1P-182 PLESS-ELLING, R. C. ............................ 3P-95 PLEWA, T. ...................................................2D-6 PLOUHINEC, D. ........................ 3C-5, 3P-134 PLOWMAN, E. ........................................... 1A-7 PLUMLEE, D. ........................................ 2P-179 PODGORSKI, A. S. ..................................... 3B-4 PODKOVYROV, L. N. ............................... 2C-6 POINTON, T. D. ......................................... 7A-3 POLAK, M. ................................................ 3P-80 POLONSKYI, O. ...................................... 3P-99 POLOSATKIN, S. V. ............................... 3P-40 POLZIN, K. .................................................. 5E-4 POMARENKO, S. ....................................... 6B-7 POPA, A. ...................................................... 6A-7 POPOV, S. S. ............................................ 3P-40 POPP, A. ...................................... 3P-114, 5C-1 PORTEANU, H. -E. ................................ 2P-60 POSTUPAEV, V. V. ................................. 3P-40 POTTINGER, S. ....................................... 2P-72 POTTS, H. E. .......................................... 1P-156 POUVESLE, J. -M. .......................... 3D-5, 7E-5 POWELL, H. ............................................... 1C-6 POWELL, H. W. .................................... 2P-119 PRADE, B. B. .............................................. 4A-8 PRADIPTA, R. ............................................ 2A-3 PRAKASH, R. ........................................... 1P-79 PRASAD, R. .................................. 1P-78, 4D-2 PRASAD, S. ..................................... 1P-7, 3B-2 PREDKI, M. ............................................ 3P-100 PRESURA, R. ........................................... 2P-98 PRIKRYL, R. ............................................ 3P-98 PRISTAVITA, R. ........................................7D-1 PROCHAZKA, M. .................................... 3P-98 PROCHAZKA, V. ................................... 3P-133 PROKOPOVICH, P. ....................... 3E-7, 4D-6 PRUKNER, V. ........................................ 1P-166 PU, R. ................................................ 4B-5, 7B-5 PU, Y. K. .................................................... 1P-93 PUAC, N. ................................................... 1P-86 PUECH, V. ........................................ 4D-7, 7C-4 PUROHIT, P. K. ....................................... 1P-60 Q QI, N. ........................................................1P-171 QIAO, B. ....................................................... 1C-1 QIAO, K. .......................................................3A-4 QIN, Y. .......................................................... 6C-8 QIU, A. .........................................1D-7, 3P-140 QIU, J. .......................................................1P-104 QUINN, K. ................................................... 4D-2 QUINN, M. N. .. 1C-6, 2P-117, 2P-118, 2P119 R RABINOVICH, A. ..................................1P-154 RABINOVICH, L. ....................................... 5E-5 RACZKA, P. ................................2D-5, 3P-120 RADTKE, G. A. ...........................................7A-1 RAETH, C. ................................................... 2B-4 RAHIMI, S. .................................................. 2B-7 RAHMANI, B. ........................................1P-145 RAHMANI, E. R. ...................................1P-145 RAISI, A. .................................................... 3P-89 RAITSES, Y. ................... 2P-184, 5E-1, 6A-1 RAJANIKANTH, B. S. ............................... 1E-2 RAKHIMOVA, T. ...................................... 5D-6 RAKITSKY, Y. A. ..................................... 3P-86 RALPH, J. ..................................................... 3P-6 RAM, A. K. .................................. 2P-69, 2P-70 RAMIS, R. ...............................................1P-134 RAMOS, G. ..................................... 3P-95, 4E-6 RAMSEY, M. C. ......................................1P-182 RAN, J. ........................................... 1A-2, 1P-72 RAN, J. X. .................................................. 1P-73 RANDEWICH, A. .................................... PL7-1 RAO, K. P. ...............................................2P-173 RAT, V. ......................................................... 6E-6 RATHI, I. ................................................... 3P-41 RAVIPATI, S. .........................................1P-150 RAWAT, R. S. ............................ 1P-165, 2C-4 RAYNAUD, M. .......................................2P-129 READ, M. .................................... 1P-23, 1P-48 READ, M. E. ............................... 2P-57, 3P-38 RECOULES, V. .......................................1P-184 REDDELL, N. ..............................................5A-3 REID, M. ..................................................1P-184 REINHARDT, S. ......................................... 5C-6 145 Author Index REIS, D. ................................................... 2P-179 REN, C. ........................................ 1P-180, 5B-9 REN, X. ......................................................... 7C-8 RENK, T. J. ......................................6D-1, 6D-2 RETTBERG, P. ........................................ 7E-10 REUTER, S. ......................... 3D-1, 6D-7, 7E-8 REZAC, K. .............................. 1P-117, 1P-164 RHEE, Y. -J. .................................................2D-5 RICCARDI, C. ............................... 1P-81, 4D-9 RICHARD, S. ............................................... 7E-5 RICHARDSON, A. S. .................. 2P-47, 6D-5 RICHARDSON, S. ...................1P-186, 1P-99 RICONDA, C. ......................................... 2P-129 RIDDICK, B. ................................................ 5B-6 RIDGERS, C. P. ...........................................2D-4 RIES, D. ............................................ 3D-5, 7E-5 RIKANATI, A. ............................................. 3C-2 RILEY, D. .................................... 1C-3, 2P-121 RITTER, S. ................................................... 3C-5 ROBBINS, L. .......................................... 1P-118 ROBERSON, C. W. ................................. 2P-62 ROBERT, E. .................................... 3D-5, 7E-5 ROBERTSON, C. W. ....1P-2, 2P-34, 2P-61, 2P-63, 2P-64, 2P-71, 2P-75 ROBINSON, A. P. L. ...... 1C-6, 2P-118, 5C-4 RODGERS, J. ............................................... 7B-5 RODRIGUEZ-MENDEZ, B. G. 1P-77, 3P-66 ROGIER, F. .................................................. 3B-8 ROHLENA, K. ........................................ 2P-124 ROMAGNANI, L. .......................................4D-2 ROMERO-TALAMAS, C. A. .................... 7B-5 RONALD, K. .. 1P-133, 1P-14, 1P-16, 1P-2, 1P-59, 2P-34, 2P-37, 2P-61, 2P-62, 2P-63, 2P-64, 2P-71, 2P-75, 2P-9, 3P32, 3P-39, 3P-45, 4B-6, 7B-10, 7B-6 RONG, M. ..... 1P-66, 2P-150, 3P-20, 3P-84 RONG, M. Z. ................................................ 1B-2 ROOKER, L. ................................................ 2P-3 ROOKER, L. A. ........................................... 2A-3 ROSAY, M. ................................................ 1P-12 ROSE, S. J. .................................................... 5A-2 ROSINSKI, M. .............................................2D-5 ROSS, M. P. .............................................. 2P-94 ROSSMANITH, J. A. .................................. 5A-7 ROSTOMYAN, E. V. .................................. 2P-7 ROSTOV, V. V. ............................................ 3B-1 ROTH, M. .................. 1C-3, 2D-2, 5C-2, 5C-4 ROTUNDO, F. ....................... 3P-108, 3P-141 ROUSSEAU, A. ........................................ 1P-28 ROUSSKIKH, A. .................................... 1P-170 ROUSSKIKH, I. ..................................... 1P-170 ROVENSKIKH, A. F. .............................. 3P-40 ROWE, T. ..................................................... 3P-1 ROY CHOUDHURY, A. ............................. 1P-8 ROZMUS, W. ............................................... 5C-9 RUBERY, M. ............................................... 6D-3 RUBINSTEIN, B. ........................................6A-4 RUDAKOV, L. I. ............................ 2C-1, 2P-87 RUDEN, E. L. ............ 1P-120, 1P-121, 4C-6 RUIZ, H. M. .................................2D-3, 2P-123 RUMA, R. ................................................1P-111 RUSSO, C. ................................... 1P-106, 5C-7 RUSTERHOLTZ, D. L. ..............................1A-4 RUTSCHER, J. ............................................ 6D-6 RYBKA, D. V. ........................................... 3P-64 RYU, H. -Y. ................................................ 1P-37 RYU, S. M. ...............................................1P-151 RZESNICKI, T. ........................................... 4B-1 S SÜTTERLIN, R. ............................ 3P-7 SABOOHI, S. ..........................................1P-177 SADEGHI, N. ............................................... 7C-4 SADEGHNEJAD, A. ................................ 3P-89 SAFRONOVA, A. S. ..... 2C-1, 2P-78, 2P-87, 2P-88, 6C-7 SAINCT, F. P. ............................................. 5D-4 SAINI, N. S. ................................. 2P-38, 3P-17 SAKAI, O. ..............................1B-7, 6E-1, 7C-6 SAKAMOTO, T. ........................... 1P-92, 4A-7 SAKIYAMA, Y. ........................... 3P-71, 3P-72 SAKUDO, N. ...........................................1P-141 SAKUGAWA, T. ........................ 1P-111, 4A-7 SALEWSKI, M. ........................................ 7C-10 SALIK, M. ................................................2P-122 SAMARIAN, A. A. ..................... 2P-31, 3P-18 SAMETOGLU, V. ........................................ 1C-7 SAMETOGULI, V. .................................1P-184 SAMOKHIN, A. V. .................................2P-167 SAMSONOV, D. ............. 2P-30, 3P-14, 3P-6 SAMSONOV, S. V. ................................... 2P-61 SANDLER, A. .............................................. 2E-1 SANDNER, W. ........................................... 2D-7 SANG, L. ................................... 3P-105, 3P-96 SANIBONDI, P. .. 2P-174, 3P-108, 3P-141, 7D-2 SANKARAN, R. M. ..................... 3P-15, 7D-8 SANTOS, J. ..............................................3P-144 SARON, V. .................................................. 3D-5 SARRI, G. .................................................... 4D-2 SAVILOV, A. V. 1P-13, 1P-14, 1P-16, 4B-7, 4B-8 146 Author Index SAW, S. H. .............................................. 1P-113 SAWADA, H. ...............................................2D-1 SAZAVSKA, V. ......................................... 3P-98 SCHABLINSKI, J. ....................................... 2B-4 SCHAMILOGLU, E. ....................... 1P-7, 3B-2 SCHARER, J. ............................................... 2B-6 SCHAUDINN, C. ......................................... 3E-8 SCHEIN, J. ...................................................7D-5 SCHENKEL, T. ........................................... 7B-4 SCHLAICH, A. ............................................ 4B-4 SCHLEEDE, S. ............................................ 5C-1 SCHLEGEL, J. ............................................. 2E-7 SCHLENVOIGT, H. -P. .............................2D-1 SCHLICKEISER, R. ........... 2A-5, 2A-7, 2A-8 SCHMID, M. ............................................. 1P-11 SCHMID, T. E. ............................................ 5C-6 SCHMIDT, J. ........................................... 1P-166 SCHMIDT, M. ........................................ 2P-177 SCHMIDT-BLEKER, A. ................3D-1, 6D-7 SCHMIEDT, L. ......................................... 1P-32 SCHNABEL, U. ........................................ 3P-80 SCHNEIDER, R. ................. 5E-1, 7A-4, 7A-5 SCHNEIDER, V. ......................................... 3A-1 SCHNÜRER, M. ..........................................2D-7 SCHOEPP, H. ......................................... 2P-175 SCHOLZ, M. .......................... 1P-117, 1P-164 SCHRAFEL, P. C. ...................... 1P-183, 4D-4 SCHREIBER, J. ............................... 2D-7, 5C-6 SCHULZ-VON DER GATHEN, V. ....... 1P-33 SCHUMACHER, D. ............................... 1P-134 SCHUMER, J. ............................... 1P-99, 6D-3 SCHUMER, J. W. 2P-47, 2P-48, 6D-5, 7A-3 SCHUNKE, B. ............................................. 5B-2 SCHWABE, M. ............................................ 2B-2 SCHWEIGERT, I. .................................. 3P-109 SCOTT, G. .................................................... 1C-6 SCOTT, G. G. ............................................... 5C-4 SEAL, D. C. .................................................. 5A-7 SEARS, J. ................................................. 1P-120 SEARS, J. A. ................................................. 4C-6 SEBASTIAN, G. .......................................... 4A-7 SEDDON, R. J. ........................................ 1P-108 SEDGHIZADEH, P. P. ............................... 3E-8 SEDRAKIAN, K. V. ............................... 3P-122 SEDYKH, S. N. ............................................ 4B-7 SEE, B. .......................................................... 2A-3 SEEPERSAD, Y. ......................................... 1A-7 SEKINE, M. ........................... 2P-109, 2P-116 SELAKOVIC, N. ....................................... 1P-86 SELLAMA, H. ............................................. 5A-1 SELVARAJAN, V. .................................. 2P-173 SEO, M. W. ............................................... 1P-31 SEOL, Y. -J. .................................................. 7E-1 SERGEEV, A. S. ................ 2P-56, 4B-7, 7B-9 SETO, T. ....................................................... 1E-5 SETSUHARA, Y. ....................................2P-109 SEVIOUR, R. ............................................ 2P-65 SEYLER, C. E. ................................. 4D-4, 6C-2 SHABSHELOWITZ, A. ............................. 5E-6 SHAFER, D. ................................................ 4D-3 SHAFQAT, N. .............................................. 5B-8 SHAH, H. A. .............................................. 2P-12 SHAIKH, A. A. ......................................... 1P-65 SHAINSKY, N. ............................................ 7E-7 SHALINI, S. .............................................. 3P-17 SHAMA, G. ................................................... 3E-7 SHANKER, B. ........................................2P-163 SHANNON, S. ........................................2P-169 SHANNON, S. C. .............. 2C-8, 2P-18, 7C-3 SHAO, X. ..................................................... 3D-7 SHAPIRO, M. A. ......................................... 4B-3 SHARMA, S. ............................... 1P-64, 3P-25 SHASHURIN, A. 1P-71, 2E-1, 2P-161, 5E-8 SHAWVER, S. ........................................2P-179 SHEEHAN, J. P. ........................... 1P-44, 6A-1 SHEFTMAN, D. ......................................... 4D-3 SHELKOVENKO, T. A. ... 2P-82, 2P-83, 3P132, 3P-136 SHELKOVENKO, T. C. ............................ 4D-4 SHEMET, M. ............................................ 1P-95 SHEN, J. ................. 2P-142, 2P-143, 2P-145 SHENG, Z. -M. .......................................1P-180 SHEVCHENKO, V. ...................... 2A-2, 2P-35 SHHEIDER, M. N. ................................... 1P-71 SHI, C. ........................................................... 4E-5 SHI, J. J. .......................................... 1B-6, 3P-93 SHI, Y. ......................................................2P-113 SHI, Y. C. ................................................... 3P-93 SHIBATA, Y. ..........................................2P-165 SHIEH, J. .................................................1P-150 SHIFFLER, D. ............................ 2P-58, 2P-65 SHIHAB, M. ............................................3P-100 SHIMAMURA, K. ................. 2P-125, 2P-126 SHIMIZU, K. .......................... 2P-114, 3P-142 SHIMIZU, S. ............................................. 7E-10 SHIMIZU, T. ..... 2E-7, 3P-77, 3P-87, 7E-10 SHIN, J. C. ...............................................2P-148 SHIN, J. H. .................................................... 2E-3 SHIN, Y. H. .................................................. 2B-9 SHIRATANI, M. ........................ 2P-109, 3A-8 SHKURENKOV, I. ..................................... 5D-6 SHKVARUNETS, A. .................................. 7B-5 147 Author Index SHLYAPTSEVA, V. V. ..2C-1, 2P-78, 2P-87, 2P-88, 6C-7 SHMELEV, D. L. ...................................... 1P-56 SHNEIDER, M. ........................................ 1P-38 SHRESTHA, I. .... 2C-1, 2P-78, 2P-88, 6C-7 SHTOKHAMER, R. ................................ 1P-20 SHU, S. ..................................................... 1P-126 SHUKLA, P. K. ......................................... 2P-33 SHUMLAK, U. ...............................2P-94, 5A-3 SHUT’KO, Y. V. ..................................... 1P-110 SHUTLER, P. M. E. ............................... 1P-165 SIEGENTHALER, K. ................................. 1C-3 SIEWERT, E. ..............................................7D-5 SIGUA, K. ................................................ 3P-118 SIKKA, H. ..................................................... 3P-8 SILVA, L. ...................................................... 5C-7 SILVA, L. O. ............................................ 1P-133 SIMON, D. ................................................... 6B-1 SINARS, D. B. ............................................. 1C-4 SINGH, M. .................................................... 4C-8 SINGH, S. ................................................ 1P-134 SINHA, A. K. ............................................ 1P-15 SINITSKY, S. L. ....................................... 3P-40 SINITSYN, O. V. ......................................... 4B-5 SIRSE, N. ................................ 2P-100, 3P-135 SKALA, J. .................................... 2D-5, 2P-124 SKIDMORE, J. 1P-178, 2P-89, 2P-90, 3C-1, 3C-4, 4D-1, 6C-3, 6C-4 SKLYAROV, V. F. .................................... 3P-40 SLAVICEK, P. ........................................ 1P-148 SLOUGH, J. ............................................. 1P-125 SMITH, I. C. ................................................. 1C-4 SMITH, J. D. ............................................. 1P-62 SMITH, R. ................................................. 2P-89 SMITHE, D. ................................................. 5A-4 SMITHE, D. N. ............. 1P-18, 1P-26, 3P-34 SOHBATZADEH, F. ............................... 1P-85 SOL, D. .......................................................... 3C-5 SOLAR, P. ................................................. 3P-99 SOMMARS, W. ........................................... 4C-6 SOMMARS, W. E. ................................. 1P-120 SONG, D. -H. ........... 1P-142, 1P-143, 3P-74 SONG, G. H. ............................................ 1P-151 SONG, H. ..........................1P-26, 1P-9, 2P-54 SONG, I. C. ................................................... 7A-9 SONG, K. B. .............................................. 1P-37 SONG, S. ....................................................... 1B-6 SONG, W. .................................................. 2P-66 SONG, Y. H. .............................................. 2P-22 SONG, Y. -H. .............. 1P-179, 1P-80, 3P-59 SONG, Z. ....................................................... 1P-1 SONNENDRUCKER, E. ............................5A-1 SOROKOVIKOVA, A. ...........................1P-134 SOSNIN, E. A. ........... 1P-110, 3P-64, 3P-65 SOTNIKOV, G. V. .................................... 2P-50 SOUSA, E. ....................................................5A-3 SOUSA, J. S. ............................................2P-157 SPANIER, F. A. ...........................................2A-1 SPEIRS, D. C. ... 1P-133, 1P-59, 2P-34, 2P37, 2P-71, 2P-9, 3P-32 SPENCER, L. F. .......................................... 4E-2 SPINDLOE, C. ............................................. 5C-4 SPRANGLE, P. A. ....................................... 7B-5 SPRINGHAM, S. V. ...............................1P-165 SRINIVASAN, P. ........................................ 2E-1 SRINIVASAN, R. ..................................... 3P-58 STAACK, D. .................................. 1P-29, 5D-7 STAFFORD, A. .............. 2P-78, 2P-88, 6C-7 STAFFORD, S. ...........................1P-178, 4D-1 STAHEL, P. ............................................1P-148 STAMBULCHIK, E. ................................... 6C-5 STANCHEV, G. M. ..................................... 3B-7 STANCU, G. D. ............................................1A-4 STAPELMANN, K. .................................... 3E-4 STARKS, M. .................................................2A-2 STAROBINETS, A. .................................... 6C-5 STEELE, J. .................................................. 6D-1 STEER, C. .................................................. 2P-45 STEINBECK, M. J. ..................................... 7E-7 STEINER, A. M. ........... 1P-109, 2P-84, 6C-1 STEINER, M. ............................................ 7C-10 STEINKE, S. ............................................... 2D-7 STEPANOVA, V. ...................................1P-148 STEPHENS, J. .............................................4A-1 STEPHENS, R. B. .......... 1C-1, 1P-134, 2D-1 STEPP, M. A. ............................................... 2E-1 STEVENS, B. ..........................................2P-110 STEVENS, N. .........................................2P-155 STEVES, S. ................................................ 2P-74 STIEL, H. ...................................................... 3C-3 STIJN, P. ...................................................... 7D-2 STOCK, A. ........................................ 7A-4, 7A-5 STOLTZ, P. ..................................................5A-4 STOLTZ, P. H. .. 1P-26, 1P-62, 2B-1, 3P-97 STRAUS, J. ..............................................1P-166 STRAUSS, H. ..........................................1P-169 STREETER, M. J. ..................................3P-117 STUPITSKY, E. .............. 2P-42, 2P-43, 6A-2 STUTZMAN, B. S. ...................................... 1P-3 STYGAR, W. A. ........................................... 3C-9 SUDA, K. .................................................3P-130 SUDOU, S. ................................................. 1P-92 148 Author Index SUGAI, H. ..................................................... 2B-8 SUKHININ, G. I. ........................ 2P-23, 2P-24 SULTANA, S. ......................................... 2P-120 SULZER, M. P. ............................................ 2A-3 SUN, B. ...................................................... 2P-17 SUN, J. ........................................................ 3P-42 SUN, K. ........................................ 3P-83, 3P-85 SUN, P. ........................................... 3E-9, 3P-82 SUN, P. P. ......................................... 2E-4, 3D-3 SUN, Q. -Z. ................................................ 3P-30 SUN, S. ............................................ 1E-4, 2P-91 SUN, S. K. .................................................. 2P-93 SUNG, D. ................................................. 3P-107 SURESH, K. ............................................ 2P-173 SUSCHEK, C. .......................................... 2P-144 SUTTLE, L. .... 1P-178, 2P-89, 2P-90, 3C-1, 3C-4, 4D-1, 6C-3 SUTTLE, L. G. ............................................. 6C-4 SUZUKI-VIDAL, F. .... 1P-178, 2P-89, 3C-1, 3C-4, 4D-1, 6C-3, 6C-4 SUZUKI-VIDAL, F. A. ............................ 2P-90 SVARNAS, P. ........................................... 3P-50 SVENSON, L. .............................................. 5B-2 SWADLING, G. 1P-178, 2P-89, 2P-90, 3C4 SWADLING, G. F. ... 3C-1, 4D-1, 6C-3, 6C-4 SWANEKAMP, S. ................................... 1P-99 SWANEKAMP, S. B. .......2P-47, 6D-5, 7A-3 SYMES, D. R. .............................. 3P-117, 5C-7 SYSOLYATINA, E. V. .................. 3E-3, 3P-86 SZEREMLEY, D. ........... 2P-74, 3P-19, 6A-6 TANG, Y. ...................................................... 5C-7 TANI, A. ....................................................... 3E-5 TANIGUCHI, R. .....................................3P-101 TARASENKO, V. F. . 1P-110, 3P-64, 3P-65 TARDIVEAU, P. ........................................ 5D-1 TAX, D. S. ..................................................... 4B-3 TAYLOR, S. ..................................... 4C-1, 4C-4 TEKAMP, L. ............................................. 2P-54 TEKE, E. ................................... 1P-88, 2P-115 TEMKIN, R. J. ............................................. 4B-3 TENDULKAR, S. ..................................... 1P-48 TENG, Y. .................................................1P-104 TESTE, P. .................................................... 1D-1 TEULET, P. ............................................3P-111 THANDI, A. .................................. 2P-48, 6D-3 THIBAULT, P. ............................................ 5C-1 THIYAGARAJAN, M. . 2P-130, 2P-131, 2P132 THOMA, M. ..................................... 3P-5, 3P-9 THOMA, M. H. ............................................3A-3 THOMAS, A. G. R. .... 1C-2, 2P-127, 3P-116 THOMAS, H. ........................2B-4, 3P-5, 3P-9 THOMAS, H. M. 2B-2, 3A-7, 3P-10, 7E-10 THORNHILL, J. W. ..... 1P-168, 1P-172, 1P173, 2C-3, 3C-7, 3C-8, 3C-9 THREADGOLD, J. ..................................... 6D-3 THREADGOLD, J. R. .. 2P-45, 2P-46, 2P-48 THUMM, M. .............1P-8, 4B-1, 4B-2, 4B-4 THUMM, M. K. A. ....................... 3B-3, 3P-40 TIE, W. ....................................................1P-167 TIEDJE, H. F. ..........................................1P-134 TIERNO, S. P. .............................................1A-1 TIGELIS, I. ................................................... 4B-1 TIGELIS, I. G. ............................. 1P-10, 1P-11 TIKHONCHUK, V. T. ...........................3P-123 TILIKIN, I. N. ........................................... 2P-83 TIMOFEEV, I. V. ........................................ 3B-3 TOBIAS, B. J. ................................... 7C-7, 7C-8 TOBITA, N. ............................................3P-101 TODD, A. M. M. .......................................... 7B-7 TOMASZEWSKI, K. ................................. 2D-5 TOMETICH, L. ........................................ 1P-12 TOOR, W. A. ............................................... 5B-8 TORIGOE, R. ..........................................2P-109 TORTI, R. .................................................. 3P-51 TRAN, M. Q. ................................................ 4B-1 TRESCA, O. 1C-6, 2P-117, 2P-118, 2P-119 TRESP, H. ................................................... 3D-1 TREUTTERER, W. T. ..........................3P-144 TRICHET, V. ............................................... 7E-5 TRIESCHMANN, J. ................... 1P-82, 2P-73 T TAE, H. -S. ............................. 1P-137, 1P-138 TAFF, J. ................................................... 2P-179 TAGHIZADEH, L. ...................................... 3B-9 TAIT, J. .................................................... 1P-134 TAKAMATSU, T. .................................. 2P-137 TAKASHIMA, K. ..................................... 3P-75 TAKASUGI, K. ......................................... 2P-96 TAKEDA, K. ............................... 2E-5, 2P-116 TAKEI, K. ..................................................... 7B-4 TAKENO, H. ........................................... 3P-101 TAKEUCHI, T. ....................................... 2P-116 TALEBITAHER, A. .............................. 1P-165 TALHI, M. ............................................... 1P-145 TAN, W. ....................................................... 1P-1 TANAKA, M. ............................................... 5B-2 TANG, J. .................................................... 3P-90 TANG, Q. ................................................... 1P-46 TANG, W. W. .................................. 3B-5, 5B-4 149 Author Index TRINES, R. ...............................1P-133, 1P-59 TRINES, R. M. G. M. ................................. 2P-9 TRINK, B. .................................................... 2E-1 TRIPATHI, V. K. ................................... 3P-112 TROTTENBERG, T. ...................... 3A-1, 6D-6 TRUSHKIN, N. I. .......................... 3E-3, 3P-86 TSAI, T. -C. ............................................... 1P-29 TSIKATA, S. ................................................ 5E-1 TSINTSADZE, N. .................................... 2P-12 TSIRONIS, C. ........................................... 2P-69 TSKHAKAYA (SR), D. D. ..................... 2P-14 TSUI, Y. Y. ................. 1C-7, 1P-134, 1P-184 TSVENTOUKH, M. M. 1P-114, 1P-115, 2P107 TSVETKOV, Y. V. .................................. 2P-167 TSYGANOV, A. B. ................................... 1P-69 TU, X. ........................................... 2P-168, 4E-4 TURNER, M. ............................1P-54, 2P-100 TURNER, M. M. ... 1A-6, 1P-58, 1P-64, 3P25, 7A-2 TYSHETSKIY, Y. O. ... 2P-4, 2P-5, 2P-6, 3P29 U UCHIDA, G. ............................................ 2P-109 UDA, H. ..................................................... 3P-75 UHM, H. S. ..1P-139, 1P-37, 2P-158, 3D-4, 3P-62, 4D-5 UHM, S. -H. . 1P-142, 1P-143, 2P-151, 2P152, 3P-74 UHRLANDT, D. ............. 1D-8, 2P-175, 7D-4 UIMANOV, I. V. .......................1P-114, 1P-55 ULISSE, G. ....................................... 3P-4, 7B-3 ULLSCHMIED, J. ...................... 2D-5, 2P-124 URABE, K. ....................................... 1B-7, 7C-6 URAKAWA, T. ....................................... 2P-109 URSESCU, D. .............................................. 3C-3 USACHEV, A. .............................................. 3P-9 USCHMANN, I. .......................................... 6C-5 UYAR, A. ...................................................... 2A-3 VAN DER MULLEN, J. J. A. M. ... 2B-7, 6B-8 VAN DIJK, J. .................................... 2B-7, 6B-8 VAN GILS, C. A. J. ...................................... 2E-6 VAN VELDHUIZEN, E. ............................ 7C-5 VAN WOERKOM, L. D. ...........1P-134, 2D-1 VANDAMME, M. ....................................... 7E-5 VANGORDON, J. A. .................. 3P-53, 3P-55 VANVLIERBERGHE, S. ........................... 7E-2 VAROL, H. ..............................................2P-115 VASILIEVA, E. V. ........ 2P-25, 2P-26, 2P-27 VAULINA, O. S. .. 2P-25, 2P-26, 2P-27, 2P28, 2P-29, 3P-12, 3P-13 VEISZ, L. ...................................................... 5C-1 VEKSELMAN, V. ....................... 3P-126, 5E-5 VELIKOVICH, A. L. ..... 1P-168, 2C-1, 3C-9, 4C-5 VERBONCOEUR, J. P. 1P-3, 1P-96, 3P-33, 3P-35, 3P-48 VERNIER, P. T. ....................................... PL6-1 VERREYCKEN, T. ......................... 5D-3, 7C-5 VESEY, R. A. ............................................... 2C-1 VIATOR, J. A. ............................... 4A-5, 7E-11 VIDAL, G. ................................................2P-131 VIEIRA, J. ..................................................... 5C-7 VIEUX, G. ..................................................... 5C-5 VIKHAREV, A. L. ....................................... 6B-6 VISANI, A. ................................................ 3P-58 VLADIMIROV, S. V. .... 2P-31, 2P-32, 2P-4, 2P-5, 2P-6, 3P-29 VLASOV, A. N. .................. 1P-20, 3B-6, 6B-4 VOGMAN, G. ............................................ 1P-49 VOISIN, L. ................................................. 2P-51 VOLOTSKOVA, O. ..................................... 2E-1 VON WOEDTKE, T. 3D-1, 3E-6, 3P-79, 3P80, 7E-3 VORAC, J. ............................... 1P-148, 3P-133 VORBERGER, J. ............ 1C-3, 1P-186, 5A-2 VORGUL, I. ....1P-59, 2P-34, 2P-37, 2P-71, 2P-9, 3P-32 VOTROUBEK, G. ..................................1P-125 V VACCARO, A. .............................................. 4B-2 VAGHELA, N. P. ..................................... 3P-31 VAINIO, R. O. ............................................. 2A-1 VALDIVIA, M. P. ................................... 3P-127 VALENCIA-ALVARADO, R. .. 1P-77, 3P-66 VALENZUELA, J. C. ............................. 3P-127 VALEO, E. J. ................................................ 7C-8 VALFELLS, A. ............................................. 3P-3 VAN DER HORST, R. ................... 5D-3, 7C-5 W WAGNER, C. J. .......................................... 4D-8 WAGNER, F. ............................................... 5C-4 WAHLSTROM, C. G. ................................. 1C-6 WAHLSTROM, C. -G. ......... 2P-117, 2P-118 WAISMAN, E. ........................................1P-172 WAISMAN, E. M. ....................................... 3C-6 WALK, R. ..................................................... 2E-1 WALKER, J. ................................................. 2B-3 WALSH, J. L. ............... 1P-153, 3D-6, 3P-69 150 Author Index WALTER, J. ..................................... 1P-5, 4A-1 WANDEL, K. ............................................ 2P-60 WANG, C. .................................................. 1P-25 WANG, D. ......................................1B-3, 1P-52 WANG, D. X. ............................................ 3P-93 WANG, G. ................................................. 3P-81 WANG, H. ....................................................2D-7 WANG, H. -Y. ........................................... 3P-30 WANG, J. ........... 3P-81, 3P-83, 3P-85, 4A-4 WANG, L. ................... 2P-104, 2P-85, 2P-86 WANG, M. .............................................. 1P-160 WANG, R. ...................................... 3E-9, 3P-82 WANG, S. ................................................ 1P-160 WANG, S. G. ............................................. 1P-83 WANG, W. ................................................ 1P-66 WANG, X. ... 1A-2, 1P-100, 1P-72, 2P-142, 2P-150, 2P-8, 2P-80, 2P-81, 2P-92, 3P-128, 3P-20, 3P-20, 3P-84 WANG, X. K. .......................................... 1P-158 WANG, X. X. ............................................. 1P-73 WANG, Y. ..................................1P-52, 2P-145 WANG, Y. -M. ............................................. 4C-2 WANG, Y. -N. ............ 1P-179, 3P-24, 3P-30 WANG, Z. ..................................3P-105, 3P-96 WANG, Z. -B. ............... 1P-89, 1P-90, 1P-91 WARSHAVSKY, A. .................................... 5E-5 WATANABE, T. .........................................7D-7 WATKINS, B. J. .......................................... 2A-3 WATROUS, J. ........................................... 2P-55 WEBB, K. .................................................. 2P-45 WEBER, B. ..................................................6D-3 WEBER, B. V. .................. 2P-44, 6D-1, 6D-2 WEBER, P. K. .......................................... 7E-10 WEBER, T. ................................. 1P-120, 4C-6 WEBSTER, P. ............................................. 3E-8 WEI, M. .......................................... 1C-1, 2P-98 WEI, W. .............................. 2P-95, 4A-4, 4A-6 WEINGARTEN, L. .................... 3P-137, 6C-5 WEINGARTNER, R. ............................ 3P-114 WELCH, D. ..................................................6D-4 WELLER, M. E. .. 2C-1, 2P-78, 2P-88, 6C-7 WELSH, G. H. ............................ 3P-113, 5C-5 WELTERS, A. ............................................. 1P-6 WELTMAN, K. -D. .................................... 7E-8 WELTMANN, K. -D. ... 3D-1, 3E-6, 3P-129, 3P-76, 3P-79, 6D-7, 7E-3 WEMLINGER, E. C. .................................. 1B-5 WEN, C. -C. .............................................. 3P-88 WENDE, K. ....................... 3D-1, 3P-76, 7E-8 WENDT, M. ........................................... 2P-175 WENGER, D. F. .......................................... 1C-4 WENZ, J. ..................................... 3P-114, 5C-1 WESTOVER, B. .....................................1P-134 WESTWOOD, J. N. ...............................1P-134 WHITE, S. .................................................... 1C-3 WHITE, T. ................................................... 1C-3 WHITE, T. G. .........................................1P-186 WHITE, W. M. ........................... 1P-120, 4C-6 WHITEHEAD, J. C. .................................... 4E-4 WHITEHURST, L. ..................................... 2P-2 WHITEHURST, L. N. ................................2A-3 WHITESIDE, P. J. ................................... 7E-11 WHYTE, C. G. . 1P-2, 2P-34, 2P-61, 2P-62, 2P-63, 2P-64, 2P-71, 2P-75, 2P-9 WIECHULA, J. .......................................1P-103 WIEWOR, P. ............................................ 2P-98 WIGGINS, M. .............................................. 5C-5 WIGGINS, S. M. .....................................3P-113 WILKENS, J. J. ............................................ 5C-6 WILKS, S. .................................................... 2D-1 WILLI, O. .................................................... 4D-2 WILLIAMS, A. M. ...................................... 7C-2 WILLIAMS, G. M. .................................2P-120 WILLIAMS, T. S. ........................................ 2C-5 WILLIAMSON, D. J. .................................. 2P-5 WILLIAMSON, J. M. ............................3P-138 WILLIAMSON, K. .................................2P-130 WILSON-ELLIOT, K. ............................... 4D-1 WINTER, J. ......... 1P-33, 3D-1, 3P-80, 6D-7 WOERNER, L. ................................ 2B-4, 3P-5 WOLF, A. ..................................................... 2E-7 WOLF, E. ................................................... 1P-47 WOLLNY, A. ........................... 1P-82, 3P-100 WOLOWSKI, J. .......................................... 2D-5 WOODS, A. J. ........................................... 1P-67 WOOLF, R. ................................................. 6D-3 WOOLF, R. S. ........................................... 2P-48 WRIGHT, E. ................................................ 6B-5 WRIGHT, E. L. ............................................ 6B-2 WU*, J. -S. ........... 1P-63, 3P-88, 5A-9, 5D-2 WU, C. ........................................................... 5B-7 WU, C. -J. ..................................................... 5D-2 WU, G. ................... 1P-147, 2P-112, 2P-146 WU, G. -Q. ................................................... 7D-6 WU, H. ....................................................... 3P-82 WU, J. ........................................... 2P-85, 2P-86 WU, J. -S. ................................................... 1P-50 WU, J. -Y. ................................................... 3P-88 WU, S. ................................... 3D-2, 4A-4, 4A-6 WU, Y. W. ................................................. 1P-83 WUENSCH, K. ............................................ 1C-3 WULF, E. A. .................................. 2P-48, 6D-1 151 Author Index WURDEN, G. A. ........................ 1P-120, 4C-6 WYNDHAM, E. S. ... 1P-149, 2D-3, 2P-123, 3P-127 YASAKA, Y. ............................................3P-101 YASUDA, H. ............................................. 3P-75 YATES, M. ..............................................2P-179 YATOM, S. ..............................................3P-126 YATSENKO, T. ........................................ 2P-50 YE, F. ............................................................. 6C-8 YE, G. .......................................................... 3P-81 YEFIMOV, B. P. .......................................... 6B-7 YIN, H. ........................... 2P-62, 2P-63, 3P-39 YOO, E. -M. .............................. 2P-152, 3P-70 YOO, H. A. ................................................. 2P-22 YOO, K. ....................................................1P-128 YOO, S. R. ................................................1P-151 YOON, P. H. .................................................2A-4 YOON, S. -Y. ........................ 5D-8, 6A-5, 7E-1 YOSHIDA, K. ............................................... 4E-7 YOU, H. -J. .............................. 3P-102, 3P-106 YOU, K. H. .................................................... 2B-9 YOU, S. J. ...................................................... 2B-9 YOU, S. -J. .................................................. 1P-70 YOUNG, A. R. .. 1P-16, 1P-2, 2P-61, 2P-63, 2P-75 YOUNG, F. .................................................. 6D-3 YOUNG, F. C. ............................................ 2P-48 YOUSEFI, H. R. .....................................1P-140 YU, C. C. ...................................................1P-150 YU, D. .......................................................2P-182 YU, H. ............................................................ 2C-5 YU, H. -K. ...................................... 1P-84, 3D-4 YU, S. ............................................................. 1E-4 YUAN, J. ........................................ 1D-6, 1P-94 YUAN, X. .................................................2P-118 YUAN, X. `. ..............................................2P-119 YUAN, X. H. ................................ 1C-6, 2P-117 YUGESWARAN, S. ...............................2P-173 YUN, G. S. ......................................... 7C-7, 7C-9 YUN, M. ......................................... 3P-63, 7D-3 YUROVA, M. A. .......................................... 3E-3 X XIA, W. ........................................ 1P-25, 1P-27 XIANG, C. ................................................ 1P-105 XIANG, X. ..................................................... 2B-6 XIAO, D. .................................................... 2P-91 XIAO, D. L. ................................................... 6C-8 XIAO, R. ....................................................... 1P-1 XIE, W. .......................................... 1D-6, 1P-94 XIE, W. P. .................................................. 1P-93 XIE, W. -P. ................................................ 3P-30 XIE, Y. ...................................................... 2P-113 XING, X. -H. .............................................. 1P-89 XIONG, Z. ........................ 2E-2, 2P-138, 3D-5 XU, J. ............................................................. 5C-1 XU, K. ......................................................... 1P-68 XU, X. ......................................................... 3P-30 XUE, A. ...................................................... 3P-15 XUE, C. ...................................................... 2P-93 Y YABUUCHI, T. ............................................2D-1 YAGER-ELIORRAGA, D. ......................... 6C-1 YAGER-ELORRIAGA, D. A. .1P-109, 2P-84 YAGI, H. .................................................. 2P-165 YAGISHITA, A. ........................................... 3E-5 YAHARA, S. ............................................ 2P-165 YAJIMA, Z. .............................................. 1P-141 YALANDIN, M. I. ....................................... 3B-1 YAMADA, H. ............................................... 4E-7 YAMADA, K. ............................................... 1B-7 YAMAGAMI, S. ...................................... 1P-101 YAMAMOTO, N. ..................................... 3P-57 YAMASHITA, D. ................................... 2P-109 YAMAZAKI, H. ........................................... 3E-5 YAN, H. ......................................................... 2A-6 YAN, J. .................................... 1P-105, 2P-166 YAN, J. D. .................................................. 1P-66 YAN, W. .................................................. 3P-140 YAN, X. .................................................... 2P-138 YANG, A. ........... 1P-90, 3P-20, 3P-84, 4A-3 YANG, B. B. .............................................. 3P-44 YANG, G. ................................................. 2P-138 YANG, Q. Y. .............................................. 3P-93 YANG, S. .................................................... 3P-90 YANG, X. ........................................ 3P-81, 4C-3 YANG, Y. ................................................. 2P-138 YANG, Y. -W. ............................... 3P-88, 5D-2 Z ZALESAK, S. T. ........................................... 4C-5 ZARNITSKY, Y. .....................................3P-137 ZAROSZYNSKI, D. A. ..........................3P-113 ZASLAVSKY, V. Y. ...................... 2P-56, 7B-9 ZELEZNIK, M. .......................................2P-110 ZESTANAKIS, P. ..................................... 2P-69 ZESTANAKIS, P. A. ................................ 2P-70 ZHA, J. .......................................... 1P-25, 1P-27 ZHAN, J. Y. ................................................ 1P-97 ZHANG, C. ..................................... 1P-89, 2C-7 ZHANG, C. H. .........................................2P-176 152 Author Index ZHANG, C. L. ............................................... 7B-8 ZHANG, G. ...................................................3D-7 ZHANG, G. J. ............................................ 1P-97 ZHANG, J. ... 1B-6, 1E-4, 2P-166, 3E-9, 3P73, 3P-81, 3P-82, 3P-83, 3P-85, 3P93, 4A-4, 4A-6 ZHANG, K. ................................................... 1E-4 ZHANG, L. 1P-1, 2P-61, 3P-45, 4B-6, 7B-6 ZHANG, Q. .... 1D-7, 2P-101, 3E-9, 3P-140, 3P-73 ZHANG, Q. Y. ........................................... 2P-66 ZHANG, R. .................... 2P-80, 2P-81, 2P-92 ZHANG, S. ................................................... 4E-5 ZHANG, V. ................................................... 3A-4 ZHANG, X. .................................. 1P-25, 1P-27 ZHANG, X. -Z. ...............................1P-90, 4A-3 ZHANG, Y. .............................................. 1P-135 ZHANG, Y. -R. ......................................... 3P-24 ZHANG, Z. ................................................... 2P-8 ZHANG, Z. Q. ........................................... 2P-66 ZHAO, G. X. ............................................ 1P-158 ZHAO, J. ..................... 1D-3, 2P-101, 3P-140 ZHAO, L. L. ............................................... 1P-83 ZHAO, P. ................................................. 1P-158 ZHAO, S. ...... 2P-138, 2P-80, 2P-81, 2P-92 ZHAO, Y. ................................ 1P-147, 2P-146 ZHDANOV, S. .......... 2B-2, 2B-4, 3P-7, 3P-9 ZHDANOVA, O. S. .................................. 3P-65 ZHIGALIN, A. ........................................ 1P-170 ZHITLUKHIN, A. M. ................................. 2C-6 ZHOM, H. .....................................................6A-4 ZHONG, F. ..............................................1P-126 ZHOU, C. D. .............................................. 3P-34 ZHOU, H. ................................................... 3P-82 ZHOU, Q. .......................1B-4, 1P-91, 3P-140 ZHU, A. ......................................................... 4E-5 ZHU, A. -M. ............................................1P-146 ZHU, D. W. ............................................... 3P-83 ZHU, W. ..1E-4, 3E-9, 3P-73, 3P-81, 3P-82 ZHU, X. .......................... 2P-80, 2P-81, 2P-92 ZHUANG, T. ................................................ 5E-8 ZIELBAUER, B. ......................... 2P-119, 5C-4 ZIELINSKA, E. ...................... 1P-117, 1P-164 ZIER, J. ......................................................... 6D-3 ZIER, J. C. .......................... 2P-48, 6D-1, 6D-2 ZILKER, M. .............................................3P-144 ZIMMERMAN, M. ..................................... 2B-3 ZIMMERMANN, J. ....................... 3E-2, 3P-77 ZIMMERMANN, J. L. ... 2E-7, 3P-87, 7E-10 ZISSIS, G. ............................... 1P-135, 1P-145 ZLOBINSKAYA, O. .................................... 5C-6 ZOLETNIK, S. ............................................. 7C-9 ZONG, Z. .................................................2P-113 ZOTOVA, I. V. ............................................. 7B-9 ZOU, F. .....................................................2P-138 ZOU, J. ......................................................1P-105 ZOU, X. 1P-100, 2P-80, 2P-81, 2P-92, 3P128 ZUCCHINI, F. .............................................. 3C-5 ZUNINO, H. A. .... 2C-1, 2P-78, 2P-88, 6C-7 153 Notes Notes Notes
