Field Precision LLC : Company information

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Accuray Incorporated (Mountain View CA, U.S.A) || Advanced Ion Beam Technology (Sunnyvale CA, U.S.A.) || Advanced Sterilization Products (Irvine, CA, U.S.A.) || Advion Biosciences (Ithaca, NY, U.S.A.) || Aichi Institute of Technology (Tokyo, Japan) || Air Force Research Laboratory (Kirtland AFB, U.S.A.) || Alameda Applied Sciences Corporation (San Leandro, CA, U.S.A.) || Albacom Ltd. (Dundee, Scotland) || Alcon Laboratories (Irvine, CA, U.S.A.) || Alis Corp (Peabody, MA, U.S.A.) || Alpha Magnetics (Hayward, CA, U.S.A.) || American Magnetics (Oak Ridge, TN, U.S.A.) || American Superconductor (Westborough MA, U.S.A.) || Anasazi Instruments (Indianapolis IN, U.S.A.) || Applied Biosystems (Foster City CA, U.S.A.) || Applied Pulsed Power Inc (Ithaca, NY, U.S.A.) || Army Research Laboratory (Adelphi, MD, U.S.A.) || Arnold Engineering (Ogallala NE, U.S.A.) || Arumet (Vantaa, Finland) || ASML Netherlands B.V. (Veldhoven, Netherlands) || Atom Sciences Incorporated (Oak Ridge, TN, U.S.A.) || Australian Nuclear Science (Lucas Heights, NSW, Australia) || Axcelis Technologies Inc. (Beverly, MA, U.S.A.) || BDI (Waukesha WI, U.S.A.) || Bechtel Nevada Corporaton (Las Vegas, NV, U.S.A.) || Becton-Dickinson (Sparks, MD, U.S.A) || Brookhaven National Laboratory (Upton, NY, U.S.A) || Burle Industries Inc (Lancaster, PA, U.S.A) || CEERI (Pilani, India) || CERN (Geneva, Switzerland) || CPI Guidant (St. Paul MN, U.S.A) || CREOL - University of Central Florida (Orlando FL, U.S.A) || CTU in Prague (Prague, Czech Republic) || Calabazas Creek Research Inc. (San Mateo, CA, U.S.A) || Canon Inc. (Tokyo, Japan) || Carlsbro Electronics (Nottinghamshire, United Kingdom) || Casio Computer Co., Ltd. (Tokyo, Japan) || Catholic University of America (Washington, D.C., U.S.A) || Centre for Advanced Technology (Indore , India) || Centro Nacional de Microelectronica (Barcelona , Spain) || Chemical Industry Institute of Toxicology (Research Triangle Park NC , U.S.A.) || Chubu University (Kasugai , Japan) || College of the Holy Cross (Worcester MA , U.S.A.) || Colorado School of Mines (Golden CO, U.S.A.) || Columbia University (New York NY, U.S.A.) || Comet AG (Flamatt, Switzerland) || Commonwealth Technology (Alexandria VA, U.S.A.) || Creo Inc (Burnaby BC, Canada) || Cymer Inc (San Diego CA, U.S.A.) || Cyto Pulse Sciences Inc. (Glen Burnie, MD, U.S.A.) || DRS Power and Control Technologies (Milwaukee WI, , U.S.A.) || DSO National Laboratories (Singapore, Singapore) || Daresbury Laboratory (Daresbury, United Kingdom) || Davis Instruments Corp (Hayward CA, U.S.A.) || Directed Technologies (Arlington VA, U.S.A.) || Donnelly Corp (Holland MI, U.S.A.) || EBI (Parsippany NJ, U.S.A.) || EHD Technology Group Inc (Duarte CA, U.S.A.) || Eaton Corp (Beverly MA, U.S.A) || Ecole Poly. Fed. de Lausanne (Lausanne, Switzerland) || El-Mul Technologies Ltd (Yavne, Isreal) || Electric Propulsion Laboratory (Monument CO, U.S.A) || Epion Corp (Billerica MA, U.S.A) || EtaTech Inc. (Titusville FL, U.S.A) || Ethicon Incoporated (Somerville NJ, U.S.A) || FEI Company (Hillsboro OR, U.S.A) || Faculty of Mechnical Engineering (Ljubljana, Solvenia) || First Point Scientific (Agoura Hills CA, U.S.A) || Fuji Electric Systems Co., Ltd. (Tokyo, Japan) || Fujitsu Laboratories, Ltd (Kawasaki-shi , Japan) || Fukui University (Fukui, Japan) || Fukushima University (Fukushima City, Japan) || Genetronics Inc (San Diego CA, U.S.A) || Genscape Inc (Louisville KY, U.S.A) || Gray Cancer Institute (Northwood, United Kingdom) || Grumman Aerospace Corp (Los Angeles, CA, U.S.A.) || Hamamatsu Photonics K. K. (Hamamatsu City, Japan) || Harvard College Observatory (Cambridge MA, U.S.A) || Hewlett-Packard Company (Corvallis OR, U.S.A) || Hexa Tech Inc. (Charleston SC, U.S.A) || High Voltage Engineering Europa (Amersfoort, The Netherlands) || Hologic (Newark DE, U.S.A) || Howard University (Washington, D.C., U.S.A) || Hughes Missile Systems Company (Tucson AZ, U.S.A) || Hydro-Quebec Research Center (Montreal , Canada) || IAE SpA (Cormona, Italy) || INFN (Legnaro, Italy) || ITT Night Vision (Roanoke VA, U.S.A) || Idaho National Laboratory (Idaho Falls ID, U.S.A) || Imaging Works Inc. (Lexington MA, U.S.A) || Imatron Inc (San Francisco CA, U.S.A) || Indiana University (Bloomington IN, U.S.A) || Indisol Lda (Grenoble, France) || Institute of Nuclear Energy Research (Lungtan, Taiwan) || Instituto Tecnico Industriale Galileo Galelei (Arzignano, Italy) || Instytut Elektrotechniki (Warszawa, Poland) || Ion Beam Applications (LouvainLaNeuve, Belgium) || Ionatron Inc. (Tucson AZ, U.S.A) || Irelec (St Martin D'Heres, France) || Ishikawajima-Harima Heavy Ind. (Tokyo, Japan) || Iwate University (Morioka, Japan) || JAEA (Sendai, Japan) || Japan Aero Expl Agency (JAXA) (Tokyo, Japan) || Japan Atomic Energy Agency (Sendai, Japan) || Japan Sci. and Tech. Agency (Kawaguchi, Japan) || Jaycor (San Diego CA, U.S.A) || Jefferson Laboratory (Newport News VA, U.S.A) || Jeol Ltd (Tokyo, Japan) || Jet Propulsion Laboratory (Pasedena CA, U.S.A) || Johns Hopkins Applied Physics Laboratory (Laurel MD, U.S.A) || Joslyn Manufacturing (Macedonia OH, U.S.A) || KEK (Tsukuba, Japan) || KLA-TENCOR (Santa Clara CA, U.S.A) || Kaon Consulting (Istanbul, Turkey) || Kayex Corp (Rochester NY, U.S.A) || Keio University (Tokyo, Japan) || Kent State University (Kent , Ohio) || Kernforschungszentrum Karlsruhe (Karlsruhe, Germany) || Kobe Steel, Ltd. (Tokyo, Japan) || Kumamoto University (Kumamoto City, Japan) || Kyushu University (Fukuoka, Japan) || L3 Communications (Woburn MA, U.S.A) || Laboratorio Nazionale del Sud (Catania, Italy) || Lawrence Berkeley National Laboratory (Berkeley CA, U.S.A) || Lawrence Livermore National Laboratory (Livermore CA, U.S.A) || Lexalite International Corp (Charlevoix MI, U.S.A) || Leybold Optics (Alzenau , Germany) || Leybold Vakuum (Dresden, Germany) || Lloyd's Register Rail (Nottinghamshire, United Kingdom) || Los Alamos National Laboratory (Los Alamos NM, U.S.A) || MCB Industrie (Argenteuil, France) || MEMC Southwest Inc (Sherman TX, U.S.A) || MIT Lincoln Laboratory (Cambridge MA, U.S.A) || Magstar International (Ann Arbor MI, U.S.A) || Manne Siegbahn Laboratory (Stockholm, Sweden) || Marresearch GmbH (Norderstedt, Germany) || Marquette University (Milwaukee WI , U.S.A) || Massachusetts Institute of Technology (Cambridge MA, U.S.A) || Matsushita Electric Works, Ltd. (Tokyo, Japan) || Max Planck Inst. Kernphysik (Heidelberg , Denmark) || Maxwell Technologies (San Diego CA, U.S.A) || MeadWestVaco Coroporation (Dayton OH, U.S.A) || Mediscan GmbH (Dremsmunster, Austria) || Meisei Electric Co., Ltd. (Tokyo, Japan) || Merck and Company (West Point PA, U.S.A) || Michigan State University (East Lansing MI, U.S.A) || Microsaic Systems Ltd. (Woking , United Kingdom) || Minimax GMBH (Bad Oldesloe, Germany) || Mitsui Engineering and Shipbuilding (Tokyo, Japan) || Motorola (Shaumberg IL, U.S.A) || NASA Goddard Spaceflight Center (Greenbelt MD, U.S.A) || NASA Marshall Space Flight Center (Huntsville AL, U.S.A) || NIST (Gaithersburg MD, U.S.A) || NTN Corporation (Tokyo, Japan) || Nanosys Inc. (Palo Alto CA, U.S.A) || Nanosystems Inc (Oxford CT, U.S.A) || National Physical Laboratory (Teddington, United Kingdom) || National Research Council (Washington, D.C., U.S.A) || National Security Technologies (Livermore CA, U.S.A) || Naval Research Laboratory (Washington, D.C., U.S.A) || Naval Surface Warfare Center (Dahlgren VA, U.S.A) || Neat Technology Company (Lujou City , Taiwan) || Neuro Diagnostic Devices (Rosemont PA, U.S.A) || Nexray (Los Gatos CA, U.S.A) || Nichia Corporation (Tokyo, Japan) || Nion Corp (Kirkland WA, U.S.A) || North Carolina State University (Raleigh NC, U.S.A) || Nu-Trek (Poway CA, U.S.A) || Oak Ridge National Laboratory (Oak Ridge TN, U.S.A) || Oakland University (Rochester MI, U.S.A) || Ohio Transformers (Copley OH, U.S.A) || Okayama University (Okayama City, Japan) || Old Dominion University (Norfolk VA, U.S.A) || Optimer Photonics (Columbus OH, U.S.A) || Optium Corp (Orlando FL, U.S.A) || Orion Design Technologies (Lee NH, U.S.A) || Osaka Gas Co., Ltd. (Osaka, Japan) || Osaka University (Osaka, Japan) || Oxford Micro Devices Inc (Shelton CT, U.S.A) || PCT Engineered Systems LLC (Davenport IA, U.S.A) || Penn State University (University Park PA, U.S.A) || Permacharge Corp (Rio Rancho NM, U.S.A) || Photonis S.A.S. (Brive Cedex, France) || Physical Sciences Inc (Alexandria VA, U.S.A) || Plantronics Inc (Santa Cruz CA, U.S.A) || Pohang Accelerator Laboratory (Pohang, Korea) || Politecnico di Torino (Torino, Italy) || Pontifica Universidad Catolica (Santiago, Chile) || Power Technologies Inc. (Schenectady NY, U.S.A) || Powercon Corp (Severn MD, U.S.A) || Princeton Plasma Physics Lab (Princeton NJ, U.S.A) || ProBeam (Planegg/Munich, Germany) || Prototek Corp (Fremont CA, U.S.A) || Purdue University (West Lafayette IN, U.S.A) || Queen's University Belfast (Belfast, Ireland) || RAFAEL (Haifa, Isreal) || RIKEN Research (Tokyo, Japan) || Rad Source Technologies (Boca Raton FL, Japan) || Railway Technical Res. Inst. (Tokyo, Japan) || Ransburg Industrial Finishing K.K (Tokyo, Japan) || ReVera Inc (Sunnyvale CA, U.S.A) || Rheinmetall W&M GmbH (Ratingen , Germany) || Ritsumeikan University (Kyoto, Japan) || Rohm Co., Ltd. (Kyoto, Japan) || Science Applications International Corp. (San Diego CA, U.S.A) || SEBA KMT (Baunach, Germany) || SLB Technology Corporation (Sugar Land TX, U.S.A) || SPEC Inc (Boulder CO, U.S.A) || SUNY Stonybrook (Stonybrook NY, U.S.A) || Saitama Industrial Tech. Cent. (Kawaguchi, Japan) || Sandia National Laboratories (Albuquerque, NM) || Sarnoff Corp (Princeton NJ, U.S.A) || Schlumberger-Doll Research (Ridgefield CT, U.S.A) || Science Research Laboratory (Somerville MA, U.S.A) || Sencera (Charlotte NC, U.S.A) || Sentron A.G. (Concord NH, U.S.A) || Sharp Corporation (Osaka, Japan) || Shizuoka University (Shizuoka City, Japan) || Siemens Corp (Princeton NJ, U.S.A) || Sigmaphi (Vannes Cedex, France) || Smithsonian Observatory (Cambridge MA, U.S.A) || Sony Corporation (San Diego CA, U.S.A) || Southwest Research Institute (San Antonio TX, U.S.A) || Sparc Systems Ltd (Worcestershire, United Kingdom) || Spectra-Mat Inc (Watsonville CA, U.S.A) || Spire Corp (Bedford MA, U.S.A) || Stanford Linear Accelerator Center (Palo Alto CA, U.S.A) || Stanford University (Palo Alto CA, U.S.A) || Stellex Microwave (Palo Alto CA, U.S.A) || Still River Systems Inc. (Littleton MA, U.S.A) || Sun Hydraulics (Sarasota FL, U.S.A) || TANDEC University of Tennessee (Knoxville TN, U.S.A) || TRW Automotive Electronics (Farmington Hill MI, U.S.A) || Target Instruments (Oak Ridge TN, U.S.A) || Techmeta (Pringy, France) || Technion R&D Foundation (Haifa , Isreal) || Teer Coatings Ltd. (Droitwich, United Kingdom) || Texas A&M University (College Station TX, U.S.A) || Texas Instruments (Sherman TX, U.S.A) || Thales Group (Alexandria VA, U.S.A) || Thermo Electron Corp. (Waltham MA, U.S.A) || Thiel Audio (Lexington KY, U.S.A) || Thomson Consumer Electronics (Lancaster, PA, U.S.A) || Titan Systems Corp (San Leandro CA, U.S.A) || Tohoku University (Sendai, Japan) || Tokyo Institute of Technology (Tokyo, Japan) || Tosoh Corporation (Tokyo, Japan) || Triple Ring Technologies (Palo Alto CA, U.S.A) || Tufts University (Somerville MA, U.S.A) || U.S. Department of Energy (New York NY, U.S.A) || Ulvac, Inc. (Methuen MA, U.S.A) || Unisys (Plymouth MI, U.S.A) || Universal Technology Corp (Dayton OH, U.S.A) || Universidad Central de Venezeula (Caracas, Venezuela) || Universidad Federal de Pernambuco (Recife, Brazil) || Universita di Genova (Genova, Italy) || Universitaet Erlangen-Nurnberg (Erlangen, Germany) || Universitaet Potsdam (Potsdam, Germany) || Universite de Neuchatel (Neuchatel, Switzerland) || Universiteit Freiburg (Freiburg, Germany) || Universiteit Twente (Enschede, Netherlands) || University of California at Los Angeles (Los Angeles CA, U.S.A) || University of California at San Diego (San Diego CA, U.S.A) || University of Dayton Research Inst. (Dayton OH, U.S.A) || University of Florida (Gainesville FL, U.S.A) || University of Hertfordshire (Hatfield, United Kingdom) || University of Houston (Houston TX, U.S.A) || University of Huelva (Huelva, Spain) || University of Illinois (Urbana IL, U.S.A) || University of Illinois at Chicago (Chicago IL, U.S.A) || University of Lausanne (St. Legier, Switzerland) || University of Maryland (College Park MD, U.S.A) || University of Massachusetts Lowell (Lowell MA, U.S.A) || University of Michigan (Ann Arbor MI, U.S.A) || University of Mississippi (University MS, U.S.A) || University of Missouri Columbia (Columbia MO, U.S.A) || University of Nebraska (Kearney NE, U.S.A) || University of Nevada, Las Vegas (Las Vegas, NV, U.S.A) || University of New South Wales (Sydney, Australia) || University of North Carolina at Asheville (Asheville NC, U.S.A) || University of Queensland (Brisbane, Australia) || University of Rhode Island (Kingston RI, U.S.A) || University of Rochester (Rochester NY, U.S.A) || University of Southern California (Los Angeles CA, U.S.A) || University of Sussex (Brighton, United Kingdom) || University of Texas (Austin TX, U.S.A) || University of Tokyo (Tokyo, Japan) || University of Tsukuba (Tsukuba, Japan) || University of Wollongong (Wollongong, Australia) || Vaisala (Vantaa, Finland) || Varian Medical Systems (Palo Alto CA, U.S.A) || Veeco Instruments (Plainview NY, U.S.A) || Vicor Corp (Andover MA, U.S.A) || Villanova University (Villanova PA, U.S.A) || Voss Scientific (Albuquerque NM, U.S.A) || W.M. Keck Observatory (Kamuela HA, U.S.A) || Warsaw University of Technology (Warsaw, Poland) || Washington State University (Pullman WA, U.S.A) || Watkins-Johnson Company (San Jose CA, U.S.A) || Wright-Patterson AFB (Dayton OH, U.S.A) || Xoft Microtube (San Jose CA, U.S.A) || Yale University Physics (New Haven CT, U.S.A) || Zoll Medical (Chelmsford MA, U.S.A)

Accuray Incorporated (Sunnyvale CA, U.S.A.)
Design of electron injectors for medical linear accelerators

Advanced Safety Concepts (Albuquerque NM, U.S.A.)
Three-dimensional models of capacitive sensors for smart airbag deployment in automobiles.

Alpha Magnetics Corporation (Hayward CA, U.S.A.)
Design studies for large magnets for semiconductor crucibles.

Archimedes Technology (San Diego CA, U.S.A.)
Review of electron-gun gun designs for material vaoprization in a magnetic isotope separator.

Bechtel Nevada Corporation (Los Alamos NM, U.S.A.)
Electron gun and focusing system design for a compact pulsed X-ray source

Beth-Israel Deaconess Medical Center (Boston MA, U.S.A.)
Computational support for the development of a database to guide clinical work on RF ablation of tumors.

Chemical Industry Institute of Toxicology (Research Triangle Park NC, U.S.A.)
Calculations of electrostatic forces on dielectric particles in electrostatic precipitators for pollution abatement.

Davis Instrument Corporation (Hayward CA, U.S.A.)
calculation of magnetic forces on a permanent magnet bearing.

Ethicon Incorporated (Somerville NJ, U.S.A.)
Development of software for coupled electrothermal simulations.

General Motors Research and Development Center (Warren MI, U.S.A.)
Custom software to model advanced Hall effect probes as fault-tolerant sensors in electronic ignitions.

Genetronics Incorporated (San Diego CA, U.S.A.)
Simulations of 3D electric field distributions created by phased electroporation needle arrays.

HTH Incorporated (Winter Park, FL U.S.A.)
Cost reduction and force optimization of a permanent-magnet clamp for mobile applications.

IAE SpA (Cormano, Italy)
Custom modifications to TDiff to model rotating X-ray targets.

Ionatron Incorporated (Tucson AZ, U.S.A.)
Three-dimensional electrode design for an electrostatic detection system

KTEC Corporation (Albuquerque NM, U.S.A.)
Modeling complex pulsed power convolutes using shape import from CosmosWorks.

Lawrence Livermore National Laboratory (Livermore CA, U.S.A.)
Develop new concepts and software tools for compact electron diodes for flash radiography.

Los Alamos National Laboratory (Los Alamos NM, U.S.A.)
Creation of advanced codes to model materials at high temperature and pressure (AGEX program).

Los Alamos National Laboratory (Los Alamos NM, U.S.A.
Three-dimensional time-domain electromagnetic code with non-linear dielectrics for soliton generation

Los Alamos National Laboratory (Los Alamos NM, U.S.A.)
Three- dimensional codes to design injectors for high-power relativistic electron beams (DARHT program).

Los Alamos National Laboratory (Los Alamos NM, U.S.A.)
Development of concepts to generate and to transport thin electron beams for high- frequency, high-power microwave generation.

Marresearch GmbH (Norderstedt, Germany)
Concepts for and design of electron guns to generate non-circular focused beams.

MIT Plasma Science and Fusion Center (Cambridge MA, U.S.A.)
Advanced code capabilities to model intense, planar electron beam guns

NASA/ASRC Aerospace (Kennedy Space Center FL, U.S.A.)
Feasibility studies - electrostatic radiation shield for a lunar base

National Institute of Science and Technology (Gaithersburg MD, U.S.A.)
SBIR Phase II contract to develop software to interpret results from near-field optical microscopes.

National Securities Technologies LLC (Las Vegas, NV. U.S.A.)
Studies to determine optimal paths for a pulsed radiographic accelerator facility.

Northstar Research Corporation (Albuquerque NM, U.S.A.)
Three-dimensional design of steering magnets for large-area scan systems.

QM Technologies (Albuquerque NM, U.S.A.)
Magnetic field distributions and charged particle orbits in intense ion injectors for implantation and material processing.

Sandia National Laboratories (Albuquerque NM, U.S.A.)
Simulations of transport and material interactions in an electron-beam-heated supersonic wind tunnel

Science Applications International Corporation (San Diego CA, U.S.A.)
Evaluation of compact betatrons for detection of hazardous materials.

Science Applications International Corporation (Albuquerque NM, U.S.A.)
Support for a program sponsored by the Office of Naval Research to create a standard code for modeling high-power electron-beam microwave devices.

Schlumberger-Doll Research Center (Ridgefield CN, U.S.A.)
Methods to improve performance of high-voltage photocathode X-ray assemblies.

SPEC Incorporated (Boulder CO, U.S.A.)
Detector concept for electric-field measurements in hurricanes.

Still River Systems (Littleton MA, U.S.A.)
Modeling ion beam dynamics in a high-field cyclotron.

SUNY (Stonybrook NY, U.S.A.)
Custom software to calculate induced electric fields in complex structures for bone regeneration.

University of Tokyo (Tokyo, Japan)
Orbit analyses for antiprotons extracted from a magnetic trap.

Valleylab Incorporated (Boulder CO, U.S.A.)
Development of 2D/3D software to simulate electrosurgery procedures.

Virginia Accelerators Corporation (Alexandria VA, U.S.A.)
Design of large- area rod cathode arrays in electron irradiators for flue gas treatment.

(A sampling of research papers and reports available on the Internet that cite Field Precision software...)

Application of bulk high-tc superconductors to electron beam ion sources: present status and outlook LINK
N. Nakamura, M. Terada, A. Endo, Y. Nakai, Y. Kanai, K. Komaki and Y. Yamazaki
University of Electro-Communications, Tokyo, Japan

Progress in ideal high-intensity unbunched beams in alternating-gradient focusing systems LINK
R. Bhatt, C. Chen and J. Zhou
Massachusetts Institute of Technology, Cambridge MA, U.S.A.

Simulation of electromagnetic fields in a microelectrode array LINK
B. Oakley, J. de Hagen, D. Hanna, B. Al-Khateeb and M. Al-Nsour
Oakland University, Rochester MI, USA

Determining the acceptance of the Brookhaven EBIS test stand for primary ions by computer simulation LINK
A. Kponou, A. Pikin, E. Beebe, J. Alessi, and L. Liljeby
Brookhaven National Laboratory, Upton NY, U.S.A.

Fluid Mechanics of a Mach 7-12 Electron Beam Driven Missile Scale Hypersonic Wind Tunnel: Modeling and Predictions LINK
I. Girgis, G. Brown and R. Miles
Princeton University, Princeton NJ, U.S.A.

Optimization of a five-Cell Niobium Cavity LINK
M. Holl, M. Trabia, and R. Schill
University of Nevada, Las Vegas NV, U.S.A.

Control and modeling of the dielectrophoretic assembly of on-chip nanoparticle wires LINK
K.. Bhatt and O. Velev
North Carolina State University, Raleigh NC, U.S.A.

First light of the OVLA active mirror with its surface heating system LINK
O. Lardière, L. Arnolda and J. Dejongheb
Observatoire de Haute-Provence, St-Michel-l’observatoire, France

JLAB high efficiency klystron baseline design for 12 gev upgrade LINK
H. Wang, L. Harwood, R. Nelson, C. Hovater and J. Delayen
TJNAF, Newport News VA, U.S.A.

Design of EBIS for nanoprocesses using HCI LINK
M. Sakurai, F. Nakajima, T. Fukumoto, N. Nakamura, S. Ohtani and S. Mashiko
Kobe University, Kobe, Japan

Recent flash x-ray injector modeling LINK
T. Houck, D. Blackfield, J. Burke, Y-J Chen, J. Javedani and A. Paul
Lawrence Livermore National Laboratory, Livermore CA, U.S.A.

Modeling of direct beam extraction for a high-charge-state fusion driver LINK
0. Anderson snf B. Logan
Lawrence Berkeley National Laboratory, Berkeley CA, U.S.A.

Compact electron beam ion source with high-TC bulk superconductors LINK
N. Nakamura, Y. Nakai and Y. Kanai
RIKEN, Wako, Japan

Theory and simulation of nonrelativistic elliptic-beam formation with one-dimensional Child-Langmuir flow characteristics LINK
R. Bhatt and C. Chen
Massachusetts Institute of Technology, Cambridge MA, U.S.A.

Electron cross-field transport in a miniaturized cylindrical hall thruster LINK
A. Smirnov, Y. Raitses and N. Fisch
Princeton Plasma Physics Laboratory, Princeton NJ, U.S.A.

Space-charge-limited magnetron injection guns for gyroklystrons LINK
W. Lawson
University of Maryland, College Park MD, U.S.A.

A mm-wave, table-top Cerenkov free-electron laser LINK
I. de la Fuente, P. van der Slot and K. Boller
University of Twente, Enschede, The Netherlands

A pulsed ion source for the IUCF cooler injector synchrotron LINK
V. Derenchuk, et.al.
Indiana University Cyclotron Facility, Bloomington IN, U.S.A.

Simulation of electrode impedance and current densities near an atherosclerotic lesion LINK
D. Stiles and B. Oakley
Oakland University MI, U.S.A.

High-performance thin-film transistors using semiconductor nanowires and nanoribbons LINK
X. Duan, et.al.
Nanosys, Inc., Medford MA, U.S.A.

A novel electron gun with an independently addressable cathode array LINK
K. Reed, G. Pena, L. Schneider and J. Rudys
Sandia National Laboratories, Albuquerque NM, U.S.A.

Carbon nanotube-based electron gun for electron microscopy LINK
J. Leopold and O. Zik
El-Mul Technologies Ltd., Yavne, Israel

Effect of electric charge accumulation on low energy ion implantation in insulators LINK
M. Yedji and G. Ross
INRS-Énergie Varennes, Québec, Canada

Magnetic and electrode structure design for a new EBIT LINK
J. Aiken, V. Krastev, X. Lu, B. E. O’Rourke and F. Currell
Queen’s University Belfast, Belfast UK

Numerical field analysis for an air cored spiral strip type pulse transformer LINK
S. Ko and S. Nam
Cheju National University, South Korea

Microwave proton sources for the IUCF LENS project LINK
A. Klyachko, V. Derenchuk, A. Bogdanov and K. Solberg
Indiana University Cyclotron Facility, Bloomington IN, U.S.A.

Development of electron beam ion source for nanoprocess using highly charged ions LINK
M. Sakuraia, F. Nakajimaa, T. Fukumotoa, N. Nakamurab, S. Ohtanib, S. Mashikoc and H. Sakaued
Kobe University, Kobe, Japan

Water and propylene carbonate as storage and switching media in pulsed power systems LINK
J. Kolb, et.al.
Old Dominion University, Norfolk, VA, USA

Analysis of a Possible 20A Electron Gun and Collector Design for the RHIC EBIS† LINK
A. Pikin, J. Alessi, E. Beebe, A. Kponou, K. Prelec, J. Ritter and L. Snydstrup
Brookhaven National Laboratory, Upton NY, U.S.A.

Effects of electric and magnetic fields on phase-separated La0.7Sr0.3MnO3–delta thin films LINK
I. Pallecchi, L. Pellegrino, E. Bellingeri, A. S. Siri, and D. Marré
INFM-LAMIA, Genova, Italy

Anisotropic particle synthesis in dielectrophoretically controlled microdroplet reactors LINK
J. Millman, K. Bhatt, B. Prevo And O. Velev
North Carolina State University, Raleigh NC, U.S.A.

Emission uniformity and emittance of explosive field-emission cathodes LINK
D.A. Shiffler, et.al.
Air Force Research Laboratory, Kirtland Air Force Base NM, U.S.A.

First beam at DARHT-II LINK
C. Ekdahl, et.al.
Los Alamos National Laboratory, Los Alamos NM, U.S.A.

Multiple beam guns for high power RF applications LINK
L. Ives, et.al.
Calabazas Creek Research Incorporated Saratoga CA, U.S.A.

More Than a Surface Probe: Investigation of Subsurface Charging in Buried Oxide Layers in Silicon Using Kelvin Probe Microscopy LINK
M. Stevens-Kalceff
University of New South Wales, Australia

Electroporation therapy: a new approach for the treatment of headand neck cancer LINK
G. Hofmann, S. Dev, S. Dimmer and G. Nanda
Genetronics Incorporated, San Diego CA, U.S.A.

Growth and patterning of aligned carbon nanotubes for applications to cold cathodes and vacuum electronics LINK
Y. Tzeng, C. Liu and Y. Chen
Auburn University, Auburn AL, USA

Optimizing the performance of flat-surface, high-gradient vacuum insulators LINK
J. Leopold, U. Dai, Y. Finkelstein and E. Weissman
RAFAEL, Haifa, Israel

Analysis of ion back-flow in an electron gun of a C-band space TWT LINK
R. Sharma, A. Choudhury, V. Singh, V. Srivastava, S. Joshi and B. Basu
Central Electronics Research Institute, Pilani, India

Characterization of the RF ablation-induced "oven effect": The importance of background tissue thermal conductivity on tissue heating LINK
Z. Liu, A. Muneeb, Y. Weinstein, M. Yi, R. Mahajan and S. Goldberg
Beth Israel Deaconess Medical Center, Boston, MA, USA

Different approach to pulsed high-voltage vacuum-insulation design LINK
John G. Leopold, Chaim Leibovitz, Itamar Navon, and Meir Markovits
Department of Applied Physics, Rafael Laboratories, Haifa, Israel LINK
Z. Liu, A. Muneeb, Y. Weinstein, M. Yi, R. Mahajan and S. Goldberg
Beth Israel Deaconess Medical Center, Boston, MA, USA

COBRA High Current Generator - Baseline Design LINK
Steven Glidden and Howard Sanders
Applied Pulsed Power, Inc.,Ithaca, NY, USA

S. Humphries and T. Orzechowski, Simulation tools for pinched-electron-beam radiographic diodes, Phys. Rev. Spec. Topics - Accel. and Beams 9, 020401 (2006).

Z. Liu, S. M. Lobo, C. Horkan, S. A. Solazzo, A. U. Hines-Peralta, R. E. Lenkinski, S. N. Goldberg and S. Humphries, Radiofrequency Tumor Ablation: Insight into Improved Efficacy Using Computer Modeling, Am. J. Roentgenol 184, 1347 (2005).

B. Carlsten, L. Earley, F. Krawczyk, S. J. Russell, J. Potter. S. Humphries and P. Ferguson, Stable two-plane focusing for emittance-dominated sheet-beam transport, Phys. Rev. STAB 8, 062002 (2005).

S. Humphries, K. Johnson, K. Rick, Z. Liu and S. Goldberg, Three-dimensional finite-element code for electrosurgery and thermal ablation simulations, Progress in Biomedical Optics and Imaging 6, 181 (2005),

S. Humphries, S. Russell, B. Carlsten and L. Earley, Focusing of high-perveance planar electron beams in a miniature wiggler array, IEEE Trans. Plasma Sci. 33, 882 (2005)

S. Humphries, Modeling ion extraction from a free plasma surface with a flexible conformal mesh, J. Comp. Phys. 204, 587 (2005).

J. Leopold, U. Dai, Y. Finkeltstein, E. Weissman and S. Humphries, Optimizing the performance of flat-surface, high-gradient insulators, IEEE Trans. Dielectrics and Electrical Insulation 12, 537 (2005).

S. Humphries, S. Russell, B. Carlsten, L. Earley and P. Ferguson, Circular-to-planar transformations of high-perveance electron by asymmetric solenoid lenses, Phys. Rev. STAB 7, 060401 (2004).

S. Humphries, Self-magnetic field calculations in ray-tracing codes, Laser and Particle Beams 18, 601 (2000).

S. Humphries, Scattering simulations.in inhomogeneous volumes for Scanning Near-field Optical Microscopy, J. Modern Optics 47, 805 (2000).

S. Humphries and J. Petillo, Modeling relativistic electron beams with finite-element ray-tracing codes, Proc. 1999 Particle Accelerator Conference, (IEEE, Piscataway, NJ, 2000), 2737.

S. Humphries, Electron multipactor code for high-power RF window development, Particle Accelerators 62, 139 (1999).

S. Humphries and C. Ekdahl, Finite-element simulation code for high-power magnetohydrodynamics, Lasers and Particle Beams 16, 405 (1998).

R.C. Platt, T.R. Ryan and S. Humphries, Finite-element model for endometrial ablation systems, SPIE Proceedings 3249, 206 (1998).

S. Humphries, R.C. Platt and T.R. Ryan, ETherm - Finite_element modeling of electrical heating and non_linear thermal transport in biological media, Proc. ASME HTD-355, 131 (1997).

S. Humphries and D. Rees, Trak_RF - Simulation of electromagnetic fields and particle trajectories in high-power RF Devices, in E.C. Michielssen (ed.), Proc. Applied Computational Electromagnetics (Naval Postgraduate School, Monterrey, 1997), 1102.

S. Humphries, Numerical Modeling of Space-charge-limited Charged-particle Emission on a Conformal Triangular Mesh, J. Computational Phys. 125, 448 (1996).

S. Humphries, Finite-element models for planar Hall probes of arbitrary shape and composition, J. Computational Phys. 128, 438 (1996).