Program overview

MONDAY MORNING, 11 NOVEMBER 1996

1RV.01 Z-pinches as intense x-ray sources for high energy density physics applications

M. Keith Matzen (Sandia National Laboratories)

1IA.01 Kinetic Effects in Tokamak Scrape-off Layer Plasmas

O.V. Batishchev (Lodestar Research Co., Boulder, CO 80301 / MIT Plasma Fusion Center, Cambridge, MA 02139)

1IA.02 Plasma Recombination and Molecular Effects in Tokamak Divertors and Divertor Simulators

S.I. Krasheninnikov (Plasma Fusion Center,Massachusetts Institute of Technology, Cambridge, MA 02139)

1E.01 Measurements of Rayleigh-Taylor Growth Rate of Planar Targets Irradiated Directly by Partially-Coherent Light

K. Shigemori, H. Azechi, M. Nakai, M. Honda, N. Miyanaga, K. Meguro, H. Takabe, T. Yamanaka, K. Mima (Institute of Laser Engineering, Osaka University)

1E.02 Measurements of linear regime Rayleigh-Taylor growth rates in laser-driven planar targets

S.G. Glendinning, S.N. Dixit, B.A Hammel, D.H. Kalantar, J.D. Kilkenny, D.M. Pennington, B.A. Remington, R.J. Wallace, S.V. Weber (Lawrence Livermore National Laboratory), M.H. Key (Rutherford Appleton Laboratory), J.P. Knauer (University of Rochester, LLE)

1E.03 Suppression of initial imprinting of laser nonuniformity with x-ray pre-irradiation

H. Shiraga, H. Azechi, M. Nakai, N. Miyanaga, H. Nishimura, K. Shigemori, Y. Kato, T. Yamanaka, M. Murakami, H. Takabe, K. Nishihara, K. Mima (Institute of Laser Engineering, Osaka University), T. Endo (Center for Integrated Research in Science and Engineering, Nagoya University)

1E.04 ICF Targets with Joints and Gaps

S.R. Goldman, M.D. Wilke, D.C. Wilson, S.E. Caldwell, W.W. Hsing, R.P. Weaver (Los Alamos National Laboratory)

1E.05 Experimental Simulations of the Effects of Joints and Gaps on Be NIF Targets

M.D. Wilke, S.R. Goldman, D.C. Wilson (Los Alamos National Laboratory)

1E.06 Comparison of Laser and X-Ray Focal Images for a Single OMEGA Laser Beam

V.A. Smalyuk, T.R. Boehly, J.A. Delettrez, L.S. Iwan, T.J. Kessler, J.P. Knauer, F.J. Marshall, D.D. Meyerhofer (Laboratory for Laser Energetics, U. of Rochester)

1E.07 Initial Single-Mode Rayleigh-Taylor Growth Rates Measured with the OMEGA Laser System

J.P. Knauer, D.D. Meyerhofer, T.R. Boehly, D. Ofer, C.P. Verdon, D.K. Bradley, P.W. McKenty, V.A. Smalyuk (Laboratory for Laser Energetics, U. of Rochester)

1E.08 Initial Mix Experiments on the 60-Beam OMEGA Laser System

D.K. Bradley, J.A. Delettrez, P.A. Jaanimagi (Laboratory for Laser Energetics,U. of Rochester)

1E.09 Laser Imprinting Studies Using Multiple-UV-Beam Irradiation of Planar Targets

T.R. Boehly, D.D. Meyerhofer, J.P. Knauer, D.K. Bradley, R.L. Keck, J.A. Delettrez, V.A. Smalyuk, J.M. Soures, C.P. Verdon (Laboratory for Laser Energetics, U. of Rochester)

1E.10 Further Experimental Investigations of the Richtmyer-Meshkov Instability

L.M. Logory, P.L. Miller, T.A. Peyser, P.E. Stry (Lawrence Livermore National Laboratory)

1E.11 Investigation of the multimode classical Rayleigh-Taylor instability*

K.S. Budil, B.A. Remington, T.A. Peyser, K.O. Mikaelian, T.S. Perry (LLNL), A.M. Rubenchik (U.C. Davis), M. Berning (Univ. of Düsseldorf), W.M. Wood-Vasey (Harvey-Mudd College), D. Ofer (Univ. of Rochester, LLE), D. Shvarts (Nuclear Research Center, Negev, Israel)

1E.12 Nova experiments on hydrodynamics and instabilities in the solid state*

B.A. Remington, D.H. Kalantar, J.D. Colvin, D.L. Griswold, R.C. Cauble, R.W. Lee, D.A. Young, H.F. Robey (LLNL), N. Woolsey (Queens Univ.-Belfast), J.S. Wark (Oxford University), A.A. Hauer (LANL), A. Rubenchik (U.C. Davis)

1F.01 Modeling of Gas-Phase Reactions in Electron Cyclotron Resonance Plasma forB!!(JOxide Deposition

M Tozawa (Tokyo Electron Ltd.), T Morimoto, T Akahori, H Amano, N Ishii, Y Yasaka (Kyoto University)

1F.02 Realistic Modeling of Electron Cyclotron Resonance Plasma Apparatus

Y Yasaka (Kyoto University), T Morimoto, M Tozawa, N Ishii (Tokyo Electron Ltd.)

1F.03 Plasma Influence on Material Oxidation in Hot Chambers.*

H.S. Uhm (Naval Surface Warfare Center)

1F.04 Mechanical Energy Annealing of Semiconductor Wafers

C. Manka, J. Grun, C. Hoffman, J. Meyer, M. Kaplan, O. Glembocki, M. Bell, S. Quadri (Naval Research Laboratory), D. Donnelly, B. Covington (Sam Houston State University)

1F.05 Effects of a Base Resistor on Electron Emission from a Field Emitter

Y.Y. Lau, J.W. Luginsland, A. Valfells (Dept. of Nuclear Engineering, U. of Michigan, Ann Arbor, MI 48109-2104)

1F.06 Plasma Window for Transmission of Synchrotron Radiation.

Ady Hershcovitch (B.N.L.)

1F.07 Validation of the GATOR TWT Code

Ernest G. Zaidman, Henry P. Freund (Naval Research Laboratory)

1F.08 Initial Testing of a Quasioptical Gyrotron for Materials Processing

R.P. Fischer, A.W. Fliflet (Plasma Physics Division, Naval Research Laboratory)

1F.09 Simulation of the NRL Tunable, Multi-kW Quasioptical Gyrotron

A.W. Fliflet, R.P. Fischer, S.H. Gold (Plasma Physics Division, Naval Research Laboratory)

1F.10 Simulation of Pulse Shortening in a Relativistic Klystron Oscillator

J.P. Verboncoeur, K.L. Cartwright (University of California, Berkeley, CA 94720)

1F.11 A Cherenkov-emission Microwave Source.*

C.H. Lai, J. Yoshii, T. Katsouleas (Univ. of Southern California, Los Angeles, CA), G. Hairapetian, C. Joshi, W. Mori (Univ. of California, Los Angeles, CA)

1F.12 Observations of Radiation Produced by a 50MeV Electron Beam Moving Over an Echelle Grating

J. Walsh, J.H. Brownell (Dartmouth College), R. Fernow, H. Kirk (Brookhaven National Laboratory), S. Robertson (University of Colorado)

1F.13 Particle-in-Cell Simulation of Plasma Surface Wave Sustained Discharges

David J. Cooperberg, C.K. Birdsall (University of California at Berkeley)

1P.01 Composite Transport Coefficient for Electron Thermal Energy

B. Coppi, W. Daughton (M.I.T.)

1P.02 Tokamak Transport Equations for both Core and SOL

Nathan Mattor (Lawrence Livermore National Laboratory, Univ.California)

1P.03 Simulations of the Interaction of Energetic Particles with MHD Waves

E.V. Belova, R.E. Denton, M.K. Hudson (Dartmouth College), A.A. Chan (Rice University)

1P.04 Saturation of Alfvén modes in tokamaks

S. Briguglio, F. Zonca, G. Vlad (Associazione Euratom-ENEA sulla Fusione, Frascati, Rome, Italy)

1P.05 Drift Kinetic Simulation of Radial Electric Field Dynamics in Tokamak Plasmas

R.Z. Sagdeev, S.V. Novakowski, C.S. Liu, T.M. Antonsen, A.B. Hassam (Institute for Plasma Research, UMD, College Park, MD, 20742), P.N. Yushmanov, V.B. Lebedev (UCSD, La Jolla,CA 92093)

1P.06 Determination of Attractor Dimension in Plasma Fluctuations

J.S. Chiu, A.K. Sen (Columbia University)

1P.07 Concentration Fluctuations in Two-Dimensional Electrostatic Turbulence in a Strongly Magnetized Plasma

Bård Krane, Hans L. Pécseli (University of Oslo, P.O.Box 1048 Blindern, N-0316 Oslo, Norway), Jan Trulsen (University of Oslo, P.O.Box 1029 Blindern, N-0315 Oslo, Norway)

1P.08 Computer Simulation of Whistlers Excited by Magnetic Antennas

C.L. Rousculp, R.L. Stenzel (UCLA)

1P.09 Numerical Analysis of Impurity Transport along Magnetic Field Lines in Tokamak Scrape-Off Layer

Tae kyun Chung, Sang Hee Hong (Seoul National University)

1P.10 Triggering Large Events in a SOC system

H. Chen, D.E. Newman, B.A. Carreras (Oak Ridge National Laboratory)

1P.11 Thermal Lattice Boltzmann Modeling of Neutral Fluids

Min Soe, George Vahala (William and Mary), Pavol Pavlo (Czech Academy), Linda Vahala (Old Dominion University)

1P.12 Implicit Low-Noise Particle Simulation for Tokamak and Space Plasma Turbulence

Bruce I. Cohen, Andris M. Dimits (Lawrence Livermore National Laboratory, Univ. of California)

1P.13 Gyrokinetic-Ion Zero-Electron-Inertia Hybrid Model %

Scott E. Parker (Princeton Plasma Physics Laboratory)

1P.14 Turbulent Transport Simulation Results from a Large Global 3D Toroidal Gyrokinetic Particle Simulation Model

R.D. Sydora, V.K. Decyk, J.M. Dawson (Dept. of Physics and Astronomy,UCLA)

1P.15 Analysis of the Radially Global Features of Toroidal Drift-Type Eigenmodes

Harry E. Mynick, Scott E. Parker (Princeton Plasma Physics Laboratory)

1P.16 Long Wavelength ITG Gyrofluid Simulations

S.A. Smith, G.W. Hammett (Princeton Plasma Physics Laboratory)

1P.17 Improvements in Collision Models etc.in Nonlinear Gyrofluid Turbulence Simulations, and Recent Results.

G.W. Hammett, M.A. Beer, S.A. Smith (PPPL, Princeton University), W.D. Dorland (Inst.for Fusion Studies, U. Texas)

1P.18 QIP3D: A Code to Solve the Quiet Implicit PIC (QIP) Moment Equations in Toroidal Geometry

W.D. Nystrom, D.C. Barnes, R.A. Nebel (Los Alamos Nat'l Lab)

1P.19 Computer Interfaces for Experimental Design and Analysis

J.C. Wiley, W.H. Miner Jr., P.M. Valanju (Fusion Research Center, University of Texas at Austin)

1P.20 Continuing Development of the Generalized Tokamak Simulator

G.M. Furnish (Lawrence Livermore Nat'l Lab), W.D. Nystrom (Los Alamos Nat'l Lab), M.J. LeBrun (DejaNews, Inc.)

1P.21 The NIMROD Code

D.D. Schnack (Science Applications International Corporation), A.H. Glasser (Los Alamos National Laboratory)

1P.22 The Physical Model of the NIMROD Code

C.R. Sovinec, D.C. Barnes, R.A. Nebel (Los Alamos National Laboratory), T.A. Gianakon (University of Wisconsin-Madison, and the NIMROD Team)

1P.23 Spatial Discretization in NIMROD

A.H. Glasser, D.C. Barnes, C.R. Sovinec (Los Alamos Nat'l Lab and the NIMROD Team)

1P.24 Parallelization of the NIMROD Code

A.E. Koniges, S. Gopalakrishna, A. Tarditi, X. Xueqiao (Lawrence Livermore National Laboratory), O. Sauter (ITER-San Diego Co-Center), D. Barnes (Los Alamos National Laboratory)

1P.25 NIMROD: A Customer Focused, Team Driven Approach for Fusion Code Development

H.M. Karandikar, D.D. Schnack (Science Applications International Corporation)

1P.26 CORSICA 3: Self-Consistent Modeling of Turbulence and Transport in Tokamaks

L.L. LoDestro, X.Q. Xu, R.H. Cohen, J.A. Crotinger (University of California, Lawrence Livermore National Laboratory)

1P.27 Collisional Effects in a Particle-In-Cell Plasma Simulation

Michael E. Jones, D. Winske, H.X. Vu (Los Alamos National Laboratory), D.S. Lemons (Bethel College, North Newton, Kansas)

1P.28 MHD Simulations of High Energy Liner Experiments

R.J. Faehl, I.R. Lindemuth, R.E Reinovsky, N.F. Roderick, P.T. Sheehey (Los Alamos National Laboratory)

1P.29 Simulation of Current Generation in a 3-D Plasma Model

F.S. Tsung, J.M. Dawson (Department of Physics, UCLA)

1P.30 Beyond Hydrodynamics via a Fluid Element PIC algorithm, GaPH

William Bateson, Dennis Hewett, Michael Lambert (LLNL)

1P.31 A Three-Fluid, Implicit, MHD Code

D.E. Lileikis (USAF Phillips Laboratory)

1P.32 Theory of collisionless damping of cavitons and resonant particle acceleration

R. Bingham (Rutherford Appleton Lab), J. Dawson (UCLA), V.D. Shapario (UCSD)

1P.33 Physics Applications of the Coupled Core-Edge Tokamak Transport Code Corsica 2^*

A. G. Tarditi, R. H. Cohen, J. A. Crotinger, N. Mattor, G. D. Porter, T. D. Rognlien, G. R. Smith (Lawrence Livermore National Laboratory, Univ. of California)

1P.34 Dynamics of the Radial Electric Field in Toroidal Plasmas in the Plateau Regime

P.N. Yushmanov, V.B. Lebedev, P.H. Diamond, A.I. Smolyakov (University of California, San Diego)

1P.35 Spatio-Temporal Dynamics of Transport Bifurcation Fronts

V.B. Lebedev, P.H. Diamond (University of California, San Diego)

1P.36 A technique for importing an arbitrary distribution of mass and magnetic field from an MHD code into a PIC code.

S.B. Swanekamp, B.V. Oliver, J.M. Grossmann (Plasma Physics Division,Naval Research Laboratory), D. Smithe, L. Ludeking (Mission Research Corp.)

1Q.01 Theory and Simulation of an Inverse Free Electron Laser Experiment

S.K. Guo, A. Bhattacharjee (The University of Iowa), J.M. Fang, T.C. Marshall (Columbia University)

1Q.02 Space Charge Waves in the Wiggler Field of a Free Electron Laser.

Yildirim Aktas (Univ. of North Carolina, Charlotte), Joseph E. Willett, Bruce Bolon (Univ. of Missouri-Columbia)

1Q.03 Laser Synchrotron Source for Tunable Monochromatic X-rays

M. Baine (UC San Diego), A. Ting, R. Fischer (Naval Research Lab), C.I. Moore (NRC/NRL Fellow), A. Fisher (Naval Research Lab), R. Elton (U. of Maryland), B. Hafizi, R. Burris (Naval Research Lab), S. Jackel (SOREQ, Israel), K. Evans (George Mason U.), P. Sprangle, E. Esarey (Naval Research Lab), S. Ride (UC San Diego)

1Q.04 250 MW X-Band TE_01 Ubitron Using a Coaxial PPM Wiggler

A.J. Balkcum, D.B. McDermott, N.C. Luhmann Jr. (University of California at Davis), R.M. Phillips (SLAC)

1Q.05 Experimental Status of the UC Davis Advanced X-Band Photoinjector Facility*

F.V. Hartemann (UC Davis), G.P. Le Sage (UCLA), A.L. Troha, L.L. Laurent, N.C. Luhmann Jr. (UC Davis)

1Q.06 Rotating Mode Validation by Phase Measurement.

K. Thomason, L.K. Len, F. Mako, J. Shiloh (FM Technologies, Inc.)

1Q.07 A Cherenkov-emission Microwave Source*

C.H. Lai, J. Yoshii, T. Katsouleas (University of Southern California, Los Angeles, CA), G. Hairapetian1, C. Joshi, W. Mori (University of California, Los Angeles, CA)

1Q.08 The Design of an Advanced Concept Gyroklystron

James P. Anderson, W. Lawson, G.P. Saraph (University of Maryland)

1Q.09 Recent Results on Pulse Shortening of GW class HPM sources

Kyle J. Hendricks, Mike Haworth, Thomas A. Spencer, Don Shiffler, M.J. Arman, Kirk E. Hackett, Steve Calico, Thad Englert (Phillips Laboratory, Kirtland AFB, NM), Collins Clark, Dale Coleman, Ray Lemke, Roque Gallegos (Sandia National Laboratory, Albuquerque, NM), Mike Sena, Dale Ralph, Mike Scott, David Trujillo (Maxwell Laboratories, Albuquerque, NM)

1Q.10 Mode Competition and Extractor Investigations in a Broadband Gyro-BWO Experiment

Thomas A. Spencer, Mark D. Stump, Kyle J. Hendricks (The Air Force Phillips Laboratory, PL/WSQN, Narrowband Sources Branch, Bldg. 66071, 3550 Aberdeen Ave SE, Kirtland AFB, NM 87117-5776), Ronald M. Gilgenbach (Intense Energy Interaction Laboratory, Nuclear Engin. and Radiological Dept., Univ. of Michigan, A^2, MI 48109-2104)

1Q.11 Loading of Phase-Locked Radial Klystron Oscillators

M.Joseph Arman (Phillips Laboratory, 3550 Aberdeen SE, Kirtland AFB, NM 87117)

1Q.12 The cyclotron resonance klystron: a novel HPM source*

C.J. Jackson (UC Davis), G.P. Le Sage (UCLA), F.V. Hartemann, N.C. Luhmann Jr. (UC Davis)

1Q.13 Computer Simulation of Stabilization of Plasma-Filled Traveling-Wave Tubes*

Igor Alexeff (University of Tennessee), Mark Rader (Knoxville College and The University of Tennessee)

1Q.14 Multipactor Saturation via Space-Charge Debunching Effects

David Chernin, Spilios Riyopoulos (Science Applications International Corporation)

1Q.15 Simulation Study of a Plasma Filled BWO with a Non-Uniform Slow Slow Wave Structure*.

D. Young, O. Ishihara (Texas Tech University), C. Grabowski, J. Gahl, E. Schamiloglu (University of New Mexico)

1Q.16 Numerical parameter study of the radial acceletron

G.E. Sasser, M.J. Arman, J.J. Havranek (USAF Phillips Laboratory)

1Q.17 High Power Microwave Emission of Large and Small Orbit Gyrotron Devices in Rectangular Interaction Structures

J.M. Hochman, R.M. Gilgenbach, R.L. Jaynes, J.I. Rintamaki, J.W. Luginsland, Y.Y. Lau (Nuc. Eng. and Rad. Sciences, U. of Michigan), T.A. Spencer (Phillips Lab)

1Q.18 High Power Third-Harmonic Gyro-TWT: 2 MW, 35 GHz, Stable

K.X. Liu, B.H. Deng, J. Van Meter, L. Dressman, D.B. McDermott, N.C. Luhmann Jr. (University of California at Davis)

1Q.19 Simulations of Dielectric Cerenkov Masers at Moderate to High Power

P.J. Mardahl, J.P. Verboncoeur, C.K. Birdsall (University of California, Berkeley 94720)

1Q.20 Novel 140 GHz Gyro-TWT Amplifier

W. Hu, K.E. Kreischer, M. Shapiro, R.J. Temkin (MIT)

1Q.21 Extending the Power-Handling Capabilities of a Gyrotron with a Gaussian Output Mode*

K. Felch, P. Borchard, T.S. Chu, H. Jory, C.M. Loring (Communications and Power Industries (formerly Varian Associates, Inc.)), C.P. Moeller (General Atomics)

1Q.22 Enhanced RF extraction efficiency in high power traveling wave tubes

G.S. Kerslick, S. Naqvi, J.A. Nation (Laboratory of Plasma Studies amp; School of Electrical Engineering, Cornell University, Ithaca, NY 14853, USA), L. Schächter (Department of Electrical Engineering, Technion - Israel Institute of Technology, Haifa 32000, Israel)

1Q.23 Diagnostic Experiments and Simulation for Relativistic Electron Beams in Axially Varying Magnetic Fields for Applications to Gyrotrons

R.L. Jaynes, R.M. Gilgenbach, J.M. Hochman, J.I. Rintamaki, Y.Y. Lau (Nuclear Engineering and Radiological Sciences, U. of Michigan), T.A. Spencer (Phillips Lab)

1Q.24 Design Studies on Gyrotron for ECRH in KSTAR^\ast

Saeyoung Ahn, Jin Woo Huh, Hyoung Suk Kim, Myoung-Jae Lee, Ho Young Song (Institute for Advanced Engineering, P.O.Box 25, Yongin, Kyunggi-Do 449-800, S. Korea)

1Q.25 An Inductive Output Amplifier with a Field Emission Cathode

Mary Anne Kodis, Ernest G. Zaidman, Kevin L. Jensen (Naval Research Laboratory), Morag Garven (University of Maryland), Bruce Goplen, David N. Smithe (Mission Research Corporation)

1Q.26 Rectangular Grating Periodic Slow Wave Structure with Sheet Beam for Low-Voltage Amplifiers

Lazaar J Louis, John E Scharer, Mark A Basten, John H Booske (University of Wisconsin-Madison)

1Q.27 Progress on Developing Control Strategies for the Sinus-6 BWO

Edl Schamiloglu, Chaouki Abdallah, Wei Yang (University of New Mexico)

1Q.28 Pulse Shortening and Plasma Filling Studies on the UNM Long-Pulse BWO Experiment

C. Grabowski, J.M. Gahl, E. Schamiloglu (University of New Mexico)

1Q.29 Numerical Cold Testing for Plasma Loaded Slow-Wave Circuits

J.M. Oslake, J.P. Verboncoeur, C.K. Birdsall (University of California, Berkeley CA 94720)

1Q.30 High Power Microwave Production by Gyroharmonic Conversion

M.A. LaPointe, A.K. Ganguly (Omega-P, Inc.), R.B. Yoder, Changbiao Wang (Yale University), J.L. Hirshfield (Yale University and Omega-P, Inc.)

1Q.31 Simulation Analysis of an Electrostatic Gyroharmonic Amplifier with Self-Field Effect

Changbiao Wang (Yale University), J.L. Hirshfield (Yale University and Omega-P, Inc.)

1Q.32 A ``Gatling" Micro-Pulse Gun for Microwave Frequency Multiplying

F. Mako, J. Shiloh, K. Thomason (FM Technologies, Inc.)

1Q.33 High Power Microwave Source for Plasma Heating by Co-Generation

J.L. Hirshfield (Yale University and Omega-P, Inc.), Changbiao Wang (Yale University)

1Q.34 Generation of Microwave by an Ionization Front in a Gas-Filled Capacitor Array

P. Muggli, R. Liou, C.H. Lai, T. Katsouleas (USC), C. Joshi, W.B. Mori, J. Dawson (UCLA)

1Q.35 Experimental Studies of Field Emission Arrays For a Twystrode Amplifier

M. Garven*, M.A. Kodis, M.T. Ngo, B. Sobocinski (Naval Research Laboratory)

1Q.36 35GHz Gyro-Amplifier Program at NRL.*

J.J. Choi, A.H. McCurdy, M. Blank, J. Calame, F. Calise, B. Danly, R.H. Kyser, B. Levush, G.S. Park, R.K. Parker (Naval Research Laboratory, Washington, DC 20375)

1R.01 Magneto-Hydrodynamical Two-Dimensional Tilting Instability

S. Arouh, P.H. Diamond, V.D. Shapiro (Physics Dept, University of California, San Diego, La Jolla, CA 92093-0319)

1R.02 Collisionless magnetic reconnection and the structure of thin current layers

R.E. Denton, J.F. Drake (University of Maryland)

1R.03 Theory of the Reconnection Layer in the MRX Experiment.

D. Uzdensky, R. Kulsrud, M. Yamada (Princeton Plasma Physics Laboratory)

1R.04 The Magnetic Reconnection Experiment (MRX), a Fundamental Study of Magnetic Reconnection in Merging Plasmas

M. Yamada, H. Ji, S.C. Hsu, T.A. Carter, R. Kulsrud, D. Uzdensky (Princeton Plasma Physics Laboratory)

1R.05 MHD Analysis of Magnetic Reconnection in MRX

H. Ji, M. Yamada, S.C. Hsu, T.A. Carter (Princeton Plasma Physics Laboratory)

1R.06 Measurements of Ion Temperature and Plasma Flows During Magnetic Reconnection in MRX

S.C. Hsu, T.A. Carter, H. Ji, M. Yamada (Princeton Plasma Physics Laboratory)

1R.07 Electron Temperature and Density Measurements in MRX

T.A. Carter, S.C. Hsu, H. Ji, M. Yamada (Princeton Plasma Physics Laboratory)

1R.08 Response of a Rotating Plasma to a Resonant Boundary Perturbation

C. Ren, C.C. Hegna, J.D. Callen (University of Wisconsin-Madison)

1R.09 Secondary Ballooning Instabilities in the Vicinity of an m/n=1/1 Island

Y. Nishimura, J.D. Callen, C.C. Hegna (University of Wisconsin-Madison)

1R.10 Mode Coupling as a Trigger for Neoclassical-MHD Driven Magnetic Islands in a Tokamak Plasma

T.A. Gianakon, C.C. Hegna, J.D. Callen (University of Wisconsin-Madison)

1R.11 The Role of Parallel Electron Viscosity on m = 1 Instabilities in High Temperature Tokamaks*

C.C. Hegna, J.D. Callen (Univ. of Wisconsin)

1R.12 Formation of Plane Current Sheets under High-Pressure He-filling. Some Peculiarities of Magnetic Reconnection.

Anna Frank, Sergey Bogdanov, Victoria Burilina, Natalia Kyrie (General Physics Institute of Russian Academy of Sciences, Moscow, Russia.)

1R.13 Nonlinear Resistive Wall Tearing Modes and Locking

John M. Finn, C.R. Sovinec (Theoretical Division, LANL)

1R.14 Magnetic Helicity Scan Experiment in the TS-3 Merging Device

Y. Ono, M. Inomoto, T. Okazaki, M. Katsurai (Univ. Tokyo)

1R.15 Experimental Investigation of Driven Magnetic Reconnection on TS-3 device

M. Inomoto, Y. Ono, Y. Ueda, M. Katsurai (Dept. Electr. Eng., Univ. Tokyo)

1R.16 Plasma Reconnection in HI-1 Helicity Injector

Masaru Irie, Shirou Yoshikawa (FBX-III Project, EECE, Waseda University,Tokyo,Japan)

1R.17 Asymmetry and Thermal Effects of Parallel Electron Motion and Ion Larmor Radius Effect in Collisionless Magnetic Reconnection

Motohiko Tanaka (Massachusettes Institute of Technology, Cambridge, MA 02139)

1R.18 Forced Reconnection and Mode-Locking in Rotating Cylindrical Plasmas

Xiaogang Wang, A. Bhattacharjee (The University of Iowa)

1R.19 The Tearing and Ballooning Modes in the Tail Current Sheet

A.K. Sundaram, D.H. Fairfield (NASA Goddard Space Flight Center)

1R.20 Pseudo-MHD Ballooning Modes In Tokamak Plasmas

J.D. Callen, C.C. Hegna (University of Wisconsin, Madison, WI 53706-1687)

1R.21 Destabilization of Ballooning Modes by Sheared Rotation in the Supersonic Regime

E. Hameiri (Courant Institute of Mathematical Sciences, NYU), J.J. Ramos (Plasma Fusion Center, MIT)

1R.22 Shear Flows in Toroidal Anisotropic Plasmas: Steady State and Stability

Victor Ilgisonis, Vladimir P. Pastukhov (Russian Research Centre "Kurchatov Institute")

1R.23 Coupling the \sc pest and \sc spark Codes for \delta W Stability Analyses with 3\small D Wall Configurations

J. Bialek, M.S. Chance, S. Jardin, J. Manickam, N. Pomphrey (Princeton University)

1R.24 Converting the VACUUM code from a Fourier basis to a Finite-Element Basis

M.S. Chance (Princeton Plasma Physics Laboratory), A. Turnbull, J.M. Greene (General Atomics)

1R.25 MH3D Simulations of Three-Dimensional Halo Currents

N. Pomphrey, W. Park (Princeton University, Plasma Physics Laboratory)

1R.26 Nonlinear Magnetohydrodynamic Detonation: Part I

Omar Hurricane, Bryan Fong, Steven Cowley (UCLA-Dept. of Physics)

1R.27 Nonlinear Magnetohydrodynamic Detonation, Part II

Bryan Fong, Omar Hurricane, Steven Cowley (UCLA-Dept. of Physics)

1R.28 Simulation of ELMs Initiated by Pellet Injection in Tokamaks

H.R. Strauss (NYU), W. Park (PPPL)

1R.29 Stability of Two-Dimensional Vortices in Incompressible Fluids and Plasmas

S.N. Bhattacharyya (Institute for Plasma Research, Gandhinagar, India), A. Bhattacharjee (The University of Iowa)

1R.30 Comparison of Tokamak Axisymmetric Mode Growth Rates from Linear MHD and Equilibrium Evolution Approaches

S.A. Galkin, A.A. Ivanov, S.Yu. Medvedev, Yu.Yu. Poshekhonov (Keldysh Institute of Applied Mathematics, Russian Academy of Sciences, Moscow, Russia), D.A. Humphreys (General Atomics)

1R.31 Aspect-Ratio and Profile Effects on Resistive Wall Stabilization by Toroidal Rotation in Tokamaks

David J. Ward (Centre de Recherches en Physique des Plasmas, Association EURATOM-Suisse, EPFL, CH-1015 Lausanne, Switzerland)

1R.32 Variational principle for rotating MHD stability

Michael B. Isichenko, Patrick H. Diamond (University of California, San Diego)

1S.01 ICRF Heating Experiments on TFTR: an Overview

J.R. Wilson, J.C. Hosea, B. LeBlanc, C.K. Phillips, R. Majeski, J.H. Rogers, G. Schilling, TFTR Team (Princeton Plasma Physics Laboratory)

1S.02 Deuterium-Tritium Mode Conversion Experiments in TFTR

R. Majeski, D. Darrow, N. Fisch, R. Heeter, M. Herrmann, J.C. Hosea, B. LeBlanc, S.S. Medley, C.K. Phillips, J.H. Rogers, G. Schilling, S. Taylor, J.R. von Goeler, S. Wilson, S. Zweben (Princeton Plasma Physics Laboratory), F. Batha, H. Levinton (Fusion Physics and Technology), N. Duong (General Atomics), A. Gorelenkov, M. Krasilnikov (Troitsk Institute), Petrov (Ioffe Institute)

1S.03 Fast Ion Losses During Mode-Converted Ion Bernstein Wave Experiments in TFTR

D.S. Darrow, R. Majeski, N.J. Fisch, R.F. Heeter, H.W. Herrmann, M.C. Herrmann, S.S. Medley, J.H. Rogers, G. Schilling, J.R. Wilson, S.J. Zweben (Princeton Plasma Physics Laboratory), H.H. Duong (General Atomics), M. Petrov (Ioffe Institute)

1S.04 Modelling of Ion Bernstein Wave-Driven Deuterium Beam Ion Losses in TFTR.

R.F. Heeter, N.J. Fisch, D.S. Darrow, M.C. Herrmann, R. Majeski (Princeton University Plasma Physics Laboratory)

1S.05 ICRF Heating at the Tritium and Deuterium Cyclotron Resonances in TFTR

C.K. Phillips, R.E. Bell, M. Bitter, J.C. Hosea, B. LeBlanc, R.P. Majeski, S.S. Medley, J.H. Rogers, G. Schilling, E.J. Synakowski, S. von Goeler, J.R. Wilson, TFTR Team (Princeton University), C.E. Bush (Oak Ridge National Laboratory), H.H. Duong (General Atomics), M.P. Petrov (AF Ioffe Physical-Technical Institute)

1S.06 ICRF Heating and Current Drive in High and Low Beta Tokamaks

- J. Scharer, M. Bettenhausen, N. Lam, R. Sund (University of Wisconsin-Madison)

1S.07 Trapped electron effects on ICRF Current Drive Predictions in TFTR

John C. Wright, Cynthia K. Phillips (Princeton Plasma Physics Lab), Paul T. Bonoli (MIT Plasma Fusion Center)

1S.08 Modelling of ICRF and IBW Discharges in TFTR

B. LeBlanc, S. Batha, C. Bush, M. Ono, R. Majeski, C. Phillips, J. Rogers, E. Synakowski, G. Taylor, J.R. Wilson (and the TFTR TEAM)

1S.09 The TFTR ICRF System Reconfiguration for Enhancing Localized Heating and Current Drive in D-T Plasmas

G. Schilling, J.C. Hosea, R. Majeski, J.H. Rogers, J.R. Wilson (Princeton University Plasma Physics Laboratory)

1S.10 Simulations of Enhanced Reversed Shear Plasmas in TFTR Using the Tokamak Simulation Code*

R. Kaita, S. Bernabei, S. Jardin, J. Manickam, N. Pomphrey (Princeton University), D. Ignat (International Atomic Energy Agency), F. Levinton (Fusion Physics and Technology, Inc.)

1S.11 Formation, Evolution and Degradation of the Transport Barrier in TFTR Reversed Shear Discharges

G. Taylor, R.E. Bell, C.E. Bush, H.K. Park, E.J. Synakowski, S.D. Scott (Princeton University)

1S.12 Looking for a Transport Barrier in the VB Emission Profile

A.T. Ramsey, R.E. Bell, S.D. Scott (Princeton University)

1S.13 Isotope Scaling of ERS Threshold in TFTR

S.D. Scott, T.S. Hahm, G.H. Hammett, E.J. Synakowski, M.C. Zarnstorff, TFTR Team (Princeton University)

1S.14 Transport Barriers in TFTR Supershots

D.R. Ernst (MIT), S. D. Scott, TFTR Group (PPPL)

1S.15 Microinstability Properties of Negative Magnetic Shear Discharges in TFTR, DIII-D, and JT-60

G. Rewoldt, W.M. Tang (Princeton University), L. Lao (General Atomics)

1S.16 Comparison of Minority Species Transport in TFTR ERS Plasmas with Neoclassical Theory

W.A. Houlberg, C.E. Bush, S.P. Hirshman (ORNL), R.E. Bell, P.C. Efthimion, E.J. Synakowski, M.C. Zarnstorff (PPPL)

1S.17 TFTR Poloidal Rotation Diagnostic

R.E. Bell, L.E. Dudek, B. Grek, D.W. Johnson, R.W. Palladino, A.T. Ramsey (Princeton University)

1S.18 Temperature Fluctuation Measurements from a ECE Heterodyne Radiometer on TFTR

P.E. Phillips, G. Cima (Fusion Research Center, University of Texas at Austin, Austin, TX 78712, USA)

1S.19 Tritium efflux from TFTR during a vacuum vessel vent

D. Mueller, C.H. Skinner, W. Blanchard, A. Nagy (Princeton University)

1S.20 Particle Transport in Enhanced Reverse Shear (ERS) Plasmas on TFTR

P.C. Efthimion, E.J. Synakowski, R.E. Bell, B. LeBlanc, S. von Goeler, S. Scott, J. Strachan, M.C. Zarnstorff (Princeton University), C. Bush, W. Houlberg (ORNL)

1S.21 Density Turbulence Characteristics of Supershot and ERS Plasma

J.S. Kim, R.D. Durst, R.J. Fonck, E. Fernandez, P. Terry (University of Wisc), S.F. Paul (Princeton Plasma Physics Laboratory, Princeton, N.J.)

1S.22 Pellet Induced Radiative Plasma Terminations on TFTR

G.L. Schmidt, E.D. Fredrickson, Z. Chang, D.S. Darrow, K.W. Hill, G. Taylor, TFTR Team (PPPL), C.E. Bush, M. Gouge, S. Milora (ORNL)

1S.23 Correlations Between Profiles and the Transport \hspace.1in Barrier and \tau_E in the Core of \hspace.1in TFTR \hspace.1in DD and DT Plasmas

C.E. Bush, J. Hogan, W.A. Houlberg (Oak Ridge National Laboratory), R.E. Bell, K.W. Hill, R.V. Budny, B. LeBlanc, D.K. Mansfield, E. Mazzucato, R. Nazikian, S.D. Scott, E.J. Synakowski, G. Taylor, M.C. Zarnstorff (Princeton University), S.A. Sabbagh (Columbia University)

1S.24 Rollover of TFTR Plasmas

J.D. Strachan, C. Bush, Z. Chang, E. Fredrickson, H. Park, A. Ramsey, S. Scott, G. Taylor (Princeton University)

1S.25 Study of the Lithium Deposition Profile on the TFTR Inner Bumper Limiter in Discharges with Li-Pellet Injection

K.W. Hill, D.K. Mansfield, M.G. Bell, B. Davis, H.W. Kugel, S.S. Medley, A.T. Ramsey, C.H. Skinner, J.D. Strachan (Princeton University), C.E. Bush, J. Hogan (ORNL), G.A. Wurden (LANL), W. Tighe (Present Address:Hughes Aircraft,Torrance,CA)

1S.26 Model for Li deposition effects on recycling and confinement in TFTR

J. Hogan, C. Bush, M. Cole, D. Taylor (ORNL), D. Mansfield, C. Skinner, R. Budny, A. Ramsey (PPPL)

1S.27 Purely Growing and Compound 'Locked Mode' in TFTR

H. Takahashi, E. Fredrickson, K. McGuire (Princeton University)

1S.28 Experiment on the q(r) Dependence of Alpha Particle Ripple Loss in TFTR

S.J. Zweben, D.S. Darrow, R.V. Budny, M. Diesso, M.H. Redi, H. Takahashi, S. von Goeler, R.B. White (Princeton Plasma Physics Laboratory), S.H. Batha, F. Levinton (Fusion Physics and Technology, Inc.), H.W. Herrmann

1S.29 Alpha-driven TAE Instability in TFTR DT Experiments

G.Y. Fu, R. Budny, Z. Chang, C.Z. Cheng, D.S. Darrow, E. Fredrickson, R. Majeski, R. Nazikian, W. Park, S. Zweben (Princeton University)

1S.30 Finite Orbit Width and Larmor Radius Effects of Fast Particle Drive on Low-N Tae Stability.

N.N. Gorelenkov, C.Z. Cheng, G.Y. Fu (Princeton Plasma Physics Laboratory)

1S.31 2-D HIGH-n ANALYSIS OF TOROIDICITY INDUCED ALFVÉN EIGENMODES.\thanksThis work is supported by US DoE contract DE-AC02-76-CHO-3073.

C.Z. Cheng, N.N. Gorelenkov^2, G.Y. Fu, G. Rewoldt, W.M. Tang, L.E. Zakharov (Princeton Plasma Physics Laboratory)

1S.32 Investigation of Collisional Nonprompt Alpha Loss using Major Radius Shifts on TFTR

H.W. Herrmann, D.S. Darrow, H.E. Mynick, S.J. Zweben, TFTR Team (Princeton Plasma Physics Laboratory)

1S.33 Critical \beta-scaling on toroidal magnetic field\thanks\DOEcredit

L. Zakharov, R. Budny, E. Fredrickson (Princeton University)

1IB.01 OMEGA experiments to characterize the Rayleigh-Taylor instability with planar foils

J.P. Knauer (Laboratory for Laser Energetics, University of Rochester)

1IB.02 Leaky, Pulsating Laser-Plasma Filaments in the Nonlinear Schrödinger Equation Approximation

Tudor Wyatt Johnston (INRS Énergie et Matériaux, Varennes, Québec, CANADA J3X 1S2)

1IB.03 Observation of Multiple Mechanisms For Stimulating Ion Waves in Ignition Scale Plasmas*

Robert Kirkwood (Lawrence Livermore National Laboratory)

1IB.04 Three-Dimensional Particle-in-Cell Simulations of Ion-Driven Parametric Instabilities.

H.X. Vu (Los Alamos National Laboratory.)