Program overview

FRIDAY MORNING, 10 NOVEMBER 1995

9IA.01 2D MHD Simulations of Radiating Z-Pinch Dynamics with LASNEX\thanks Work performed under the auspices of the U.S. Department of Energy by Lawrence Livermore National Laboratory under Contract W-7405-ENG-48

James Hammer (Lawrence Livermore National Laboratory)

9IA.02 Ion Divergence in Magnetically Insulated Diodes

Stephen Slutz ^ (Sandia National Laboratories, Albuquerque, N.M. 87185-1186)

9IA.03 Modeling Electronegative Plasma Discharges

A.J. LICHTENBERG (EECS Department, University of California, Berkeley, CA 94720)

9P.01 OVERVIEW OF D-T RESULTS ON TFTR

K. McGUIRE, M.G. BELL, S. BATHA, R. BUDNY, Z. CHANG, D.S. DARROW, H. DUONG, E. FREDRICKSON, R. J. HAWRYLUK, F.M. LEVINTON, R. MAJESKI, D. K. MANSFIELD, S. D. SCOTT, B.C. STRATTON, E SYNAKOWSKI, G. TAYLOR, M.C. ZARNSTORFF, S.J. ZWEBEN, The TFTR Group (Princeton U. )

9P.02 The TFTR Advanced Performance Project.

M.G. BELL, R.J. HAWRYLUK, The TFTR GROUP (Princeton University )

9P.03 Studies of Lithium-Pellet Conditioning in TFTR

K. W. Hill, D. Mansfield, M. Bitter, S. von Goeler, A. T. Ramsey, W. Tighe (Princeton Plasma Physics Laboratory )

9P.04 Studies of the Time Evolution of DT Plasmas

J.D. Strachan, D. Mansfield, C. H. Skinner, G. Taylor (PPPL, Princeton Univ. )

9P.05 Improved Confinement with Reversed Magnetic Shear in TFTR.

F. M. LEVINTON, S. H. BATHA (Fusion Physics and Technology, 3547 Voyager St., Torrance, CA 90503), M. C. ZARNSTORFF, J. MANICKAM, G. REWOLDT, G. SCHMIDT (Princeton Plasma Physics Laboratory ), M. PHILLIPS (Northrop Grumman )

9P.06 Evolution of Current Profiles in TFTR Reversed Magnetic Shear Discharges.

G. L. SCHMIDT (Princeton Plasma Physics Laboratory, Princeton, NJ ), S.H. BATHA (Fusion Physics and Technology, Inc., Torrance, CA ), D. McCUNE (Princeton Plasma Physics Laboratory, Princeton, NJ ), F.M. LEVINTON (Fusion Physics and Technology, Inc., Torrance, CA ), M.C. ZARNSTORFF (Princeton Plasma Physics Laboratory, Princeton, NJ )

9P.07 Resistive Stability of TFTR Reverse Shear Discharges

T.C. Hender, C.G. Gimblett (UKAEA Government Division, Fusion, Culham, Abingdon, UK), J. Manickam, F. Levinton, M. Zarnstorff (PPPL, Princeton, NJ)

9P.08 MHD stability of reversed shear discharges in TFTR

J. Manickam, S. Batha, R. Budny, E. Frederickson, F. Levinton, M. Zarnstorff (Princeton University), T. Hender (UKAEA, Culham Lab., UK)

9P.09 Microinstability Properties of Negative Magnetic Shear Discharges in DIII-D and TFTR

G. Rewoldt, L. Lao, W.M. Tang (General Atomics and Princeton Plasma Physics Laboratory)

9P.10 Turbulent fluctuations in a TFTR magnetic configuration with reversed magnetic shear.

E. MAZZUCATO, R. NAZIKIAN, S. BATHA, F. LEVINGTON, M. C. ZARNSTORFF (Princeton University )

9P.11 Measuring \Delta' From T_e Fluctuation In TFTR

C. Ren, J.D. Callen, C.C. Hegna (University of Wisconsin-Madison), Z. Chang, E.D. Fredrickson, A. Janos, K.M. McGuire, M. Zarnstorff (Princeton University)

9P.12 Performance Limits of High Poloidal Beta DT Plasmas in TFTR

S. A. SABBAGH, M. E. MAUEL, G. A. NAVRATIL (Columbia University ), S. BATHA, M. G. BELL, R. V. BUDNY, C. E. BUSH, E. FREDRICKSON, F. LEVINTON, D. MANSFIELD, K. MCGUIRE, H. PARK, M. C. ZARNSTORFF, TFTR Group (PPPL )

9P.13 Improved Performance and Stability of Neutral Beam Heated Plasmas on TFTR

H.K. PARK, S.A. SABBAGH, The TFTR GROUP (Princeton University )

9P.14 Alfven Frequency Modes at the Edge of TFTR Plasmas

Z. Chang, E. D. Frederickson, H. Park, S. J. Zweben, R. Nazikian, S. J. ZWEBEN, E. Mazzucato, R. V. Budny, C. E. Bush, G. Y. Fu, A. Ramsey, K.M. McGUIRE, The TFTR GROUP (Princeton Plasma Physics Laboratory )

9P.15 Fast Particle Destabilization of High-n TAE Modes.

C. Z. CHENG, N. N. GORELENKOV, C. T. HSU (PPPL )

9P.16 TAE Modes in TFTR: Theory and Experiments\thanks\DOEcredit

B. Ning, G. Y. Fu, C. Z. Cheng, R. Budny, Z. Chang, D. S. Darrow, E. Fredrickson, E. Mazzucato, R. Nazikian, K. L. Wong, S. Zweben (Princeton U.)

9P.17 Search for Alpha-Driven BAE Modes.

W.W. HEIDBRINK, E. RUSKOV (University of California, Irvine ), R.A. JAMES (Lawrence Livermore National Laboratory ), E.J. STRAIT (General Atomics ), K.L. WONG, The TFTR GROUP (Princeton University )

9P.18 Two-stream cyclotron radiative instabilities due to the marginally mirror-trapped fraction of fusion alphas in tokamaks

V. Arunasalam (Princeton University )

9P.19 Alpha Distribution Measurements and Transport Behavior in DT Plasmas on TFTR

G. McKee, R. Fonck, B. Stratton, R. Budny (Univ. of Wisconsin-Madison, Madison, WI )

9P.20 EFFECT OF SAWTOOTH OSCILLATIONS ON TRAPPED ENERGETIC \alpha-PARTICLES IN TFTR

M.P. PETROV, H.H. DUONG, R.K. FISHER, N.N. GORELENKOV, S.S. MEDLEY (PRINCETON PLASMA PHYSICS LABORATORY )

9P.21 DT Results of TFTR's Alpha Collector Sample Probe

H. W. Herrmann, D. S. Darrow, J. R. Timberlake, S. J. Zweben, The TFTR Group (Princeton Plasma Physics Laboratory, Princeton, NJ ), G.P. Chong, A.A. Haasz, C.S. Pitcher (University of Toronto ), R.G. Macaulay-Newcombe (McMaster University )

9P.22 Low Power Collective Thomson Scattering Measurements at TFTR

P. Y. Cheung, R. E. Aamodt, D. A. Russell (Lodestar Research Corp.), J. S. Machuzak, P. P. Woskov, J. Gilmore (MIT Plasma Fusion Center), Norton Bretz, Hyeon Park (Princeton University)

9P.23 EXPERIMENTAL PERFORMANCE OF A LOW-POWER GYROTRON SCATTERING DIAGNOSTIC ON TFTR

J.S. MACHUZAK, P.P. WOSKOV, J. GILMORE (MIT PLASMA FUSION CENTER ), N. BRETZ, H.K. PARK (PRINCETON UNIV ), R.E. AAMODT, P.Y. CHEUNG, D.A. RUSSELL (LODESTAR RESEARCH CORP ), H. BINDSLEV (JET )

9P.24 Characterization of Alpha Loss during Disruptions in TFTR during Deuterium-Tritium Operation

A. JANOS, E. FREDRICKSON, R.V. BUDNY, D. DARROW, K. McGUIRE, S. ZWEBEN (PPPL )

9P.25 Alfvén Cyclotron Instability and Ion Cyclotron Emission.

N.N. GORELENKOV, S. CAUFFMAN, C. Z. CHENG, R. MAJESKI (PPPL )

9P.26 A Unified Picture of Fusion Product Ion Cyclotron Emission in TFTR and JET

S. Cauffman, R. Majeski (PPPL), R.O. Dendy, K.G. McClements (Culham), G.A. Cottrell (JET)

9P.27 Advances in understanding of \beta-limit disruptions.

E. Fredrickson, K. McGuire, Z. Chang, A. Janos (Princeton Plasma Physics Laboratory, Princeton, NJ ), S. Mirnov, I. Semenov (TRINITI, Moscow Reg. USSR )

9P.28 Phenomenology of Major and Minor Disruptions in High \beta DT TFTR Regimes

S. Mirnov, I. Semenov (TRINITI, Moscow Reg., USSR ), E. Fredrickson, R. Budny, K. McGuire, H. Park, S. Zweben, S. Von Goeler (Princeton Plasma Physics Laboratory, Princeton, NJ )

9P.29 Effects of `Locking' of MHD Mode Rotation in TFTR Tokamak.

H. TAKAHASHI, E. FREDRICKSON, K. MCGUIRE (Princeton University )

9P.30 Topics in Particle and Heat Transport in Auxiliary Heat Plasmas on TFTR

P. C. Efthimion, R. Budny, E. Fredrickson, L. C. Johnson, D. K. Mansfield, E. Synakowski, J. Strachan, M. C. Zarnstorff (Princeton Unviversity )

9P.31 Transport Analysis of Rotating TFTR Plasmas and Modes Driven by Velocity Gradients.

D.R. ERNST, B. COPPI, S.D. SCOTT, The TFTR Group (Princeton Plasma Physics Laboratory )

9P.32 Core Velocity Shear and Different Confinement Regimes in TFTR DT Plasmas.

C.E. Bush (ORNL ), R.E. Bell, E.J. Synakowski, S.D. Scott, R. Budny, P.C. Efthimion, D. Ernst, D.K. Mansfield (PPPL )

9P.33 CORRECTING ION TEMPERATURE AND TOROIDAL VELOCITY FOR THE ENERGY DEPENDANT CHARGE EXCHANGE CROSS SECTION ON TFTR

R.E. BELL, E.J. SYNAKOWSKI (PRINCETON UNIVERSITY )

9P.34 Measurements of Ion Temperature and Parallel Velocity Fluctuations in TFTR Supershot and L-mode Plasmas.

H.T. EVENSEN, R.D. DURST, R.J. FONCK, S.F. PAUL, S.D. SCOTT (University of Wisconsin-Madison, Madison, WI )

9P.35 Estimation of Nonlinear Energy Transfer in Experimental and Simulated Turbulence

J.S. Kim, R.D. Durst, R.J. Fonck, E. Fernandez, A. Ware, P. Terry (University of Wisconsin-Madison ), M. Beer, G. Hammet, S.F. Paul (Princeton Plasma Physics Laboratory, Princeton, NJ )

9P.36 Simulation Of The Nonlocal Cold Pulse Response From TFTR

M.W. KISSICK, E.D. FREDRICKSON, J.D. CALLEN (Princeton Plasma Physics Lab. )

9P.37 Evidence for spatially variable beam ion diffusion at TFTR.

E. RUSKOV, W.W. HEIDBRINK (University of California, Irvine. ), D. McCUNE, L. JOHNSON (Princeton University )

9P.38 Impurity Profiles and Plasma Performance in TFTR

A. T. Ramsey, R. E. Bell, E. J. Synakowski (Princeton University )

9P.39 Tests of thermal transport models based on the ITER profile database.

D. R. MIKKELSEN, S. M. KAYE (Princeton University )

9P.40 Transport Simulation of Tokamak Current Scans.

GLENN BATEMAN, JON KINSEY, BENJAMIN BROWN, JAN WEILAND, R. V. BUDNY (Princeton University, Plasma Physics Laboratory )

9P.41 Theory-Based Transport Modeling of TFTR Parameter Scans

J. KINSEY, G. BATEMAN, J. WEILAND (Lehigh University )

9Q.01 MHD Stability of Reversed Shear Current Profiles

M.H. Hughes, M.W. Phillips (Northrop Grumman Corporation, Princeton, NJ )

9Q.02 MHD Stability Issues of Advanced Tokamak Concepts

M.W. PHILLIPS, M.H. HUGHES (Northrop Grumman Corporation ), F. LEVINGTON (Fusion Physics and Technology, Inc. )

9Q.03 Comet-Shaped Tokamak Plasmas

J. Kesner, F. Gang, J.J. Ramos (MIT Plasma Fusion Center )

9Q.04 Coupling the \sc pest and \sc spark Codes for \delta W Stability Analyses with 3\small D Wall Configurations

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

9Q.05 Triggering the high-beta disruptions in tokamaks\thanks\DOEcredit

L. Zakharov, R. Budny, E. Fredrickson, J. Manickam (Princeton University), B. Rogers (University of Maryland)

9Q.06 Active Feedback Stabilization of Pressure-Driven Kink Modes

David J. Ward (CRPP-EPFL, 21 av. des Bains, CH-1007 Lausanne, Switzerland), Neil Pomphrey (Princeton Plasma Physics Laboratory, Princeton, NJ 08543)

9Q.07 Sheared Flow Stabilization of the m=1 Kink Mode in Z-Pinches

Uri Shumlak (Phillips Laboratory, Kirtland AFB, New Mexico), Charles W. Hartman (Lawrence Livermore National Laboratory, Livermore, California)

9Q.08 Gyroscopic Stabilization of the Internal Kink Mode

F. L. Waelbroeck (Institute for Fusion Studies, University of Texas)

9Q.09 The Nonlinear Stability of the 1/1 MHD Mode in Tokamak Plasma Columns With q(0)<1, and The Sawtooth Cycle

W. Stodiek (Princeton Plasma Physics Laboratory, Princeton, NJ ), M.H. Hughes (Northrop Grumman Corporation, Princeton NJ )

9Q.10 Sawteeth in Reversed Field Pinches

C.C. Hegna, S.C. Prager (University of Wisconsin-Madison ), C.G. Gimblett, A. Thyagarja (UKAEA Government Division, Fusion, Culham, UK )

9Q.11 Early Nonlinear m=1 Reconnection in Tokamaks\thanks\DOEcredit

B. Rogers (University of Maryland, College Park), L. Zakharov (Princeton University)

9Q.12 A Numerical Investigation of Toroidal Effects on the m=1,n=1 Mode

Y. Nishimura, J.D. Callen, T.A. Gianakon, C.C. Hegna, M.F. Zabiego (University of Wisconsin-Madison)

9Q.13 Nonlinear Magnetic Reconnection and the m=1 Mode in Tokamaks

Brian E. Aydemir, Ahmet Y. Aydemir (Institute for Fusion Studies, The University of Texas at Austin, Austin, TX 78712)

9Q.14 Two-dimensional simulation of the resistive ballooning modes inside the LCFS and in the SOL.

S.V. Novakovski, P.N. Guzdar, E.A. Novakovskaia, J.F. Drake, C.S. Liu (Institute for Plasma Research University of Maryland)

9Q.15 Improved Stability of Ideal Ballooning Modes in a Rotating Plasma for Low aspect Ratio Tokamaks

S Sen, A Sen (Institute for Plasma Research, Gandhinager, India)

9Q.16 Fast Particle Effects on Neoclassical Resistive MHD Modes

D.-I. Choi, K.-I. You (Korea Advanced Institute of Science and Technology,Korea), J.-Y. Kim (Japanese Atomic Energy Research Institute,Japan)

9Q.17 Simulations of Neoclassical-MHD Driven Magnetic Islands in a Tokamak Plasma

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

9Q.18 Pseudo-MHD Ballooning Modes In Tokamak Plasmas

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

9Q.19 A "Supersonic" Ballooning Mode problem in Sheared Subsonic Flow

E. HAMEIRI (New York University )

9Q.20 MHD Simulations of ELMs in Divertor Tokamaks

H.R. STRAUSS (New York University )

9Q.21 Active Control of ELMs by External Torque

K. AVINASH, P.H. DIAMOND (Physics Department, University of California, San Diego, La Jolla, CA 92093-0319)

9Q.22 Ballooning Symmetry in Diverted Tokamaks

Y.Z. Zhang (International Center for Theoretical Physics), S.M. Mahajan (Institute for Fusion Studies)

9Q.23 Dissapative Saturation of Self-Excited Magnetic Islands

E. Minardi (Istituto di Fisica del Plasma del CNR, Via Bassini 15, 20133 Milano, Italy)

9Q.24 Stabilization of Resistive Wall Modes by Slow Plasma Rotation

Allen H. Boozer (Columbia University )

9Q.25 Relabeling Symmetries in Hydro\-dynamics and MHD

N. Padhye, P.\ J. Morrison (Department of Physics and Institute for Fusion Studies The University of Texas at Austin, Austin TX, 78712)

9Q.26 Incorporation of a Finite\-\beta Start into the PIES Code.

J. L. JOHNSON, D. A. MONTICELLO, A. H. REIMAN (Princeton University )

9Q.27 Theory of quasi-symmetric magnetostatic equilibria

M. Tessarotto, J.L. Johnson^, R.B. White^\dagger, L.J. Zheng^* (^*Department of Mathematical Sciences, University of Trieste, Italy)

9Q.28 SPECTRUM OF TAE CORE-LOCALIZED MODES FOR TOKAMAKS AND SPHERICAL TORI

J. CANDY, B.N. BREIZMAN, J.W. VAN DAM (Institute for Fusion Studies, The University of Texas at Austin)

9Q.29 Parallelization of DCON.

A.H. GLASSER (Los Alamos National Laboratory ), J.L. MILOVICH (Lawrence Livermore National Laboratory )

9Q.30 Completion of MRX Fabrication for Study of 3-D Magnetic Reconnection

M. Yamada, H. Ji, N. Pomphrey (Princeton Plasma Physics Laboratory, Princeton, NJ), Y. Ono (University of Tokyo, Japan)

9Q.31 Initial Experiments and Diagnostics in the Magnetic Reconnection Experiment

H. Ji, M. Yamada, R. Nazikian (Princeton Plasma Physics Laboratory, Princeton, NJ)

9Q.32 Energy Conversion Characteristics of Magnetic Reconnection in the TS-3 Merging Experiment,

Y. Ono, T. Okazaki, M. Ohi, M. Katsurai (Univ. Tokyo), M. Yamada (PPPL), T. Tajima (Univ. Texas), R. Matsumoto (Chiba. Univ.)

9Q.33 Forced Magnetic Reconnection in Static and Rotating Plasmas by Sinusoidal Boundary Perturbations

Xiaogang Wang, Z.W. Ma, A. Battacharjee (University of Iowa, Iowa City, IA 52242 )

9Q.34 Current-Sheet and Nonlinear Magnetic-Island Dynamics with Electron-inertia Effects

Bhimsen Shivamoggi (University of Central Florida)

9Q.35 Macro-Particle Simulations of Collisionless Magnetic Reconnection: An Importance of Parallel Electron Transport

Motohiko Tanaka (Nat'l Inst. for Fusion Science, Nagoya 464-01, Japan)

9Q.36 Two Fluid Studies of Low m, n Instabilities*

L.E. Sugiyama (MIT), W. Park (Princeton University)

9Q.37 A kinetic-MHD model including finite Larmor radius effects\thanks This work supported by DoE contract No.\ DE--AC02--76--CHO--3073.

J. R. Johnson, C. Z. Cheng (Princeton University)

9Q.38 Collisionless Magnetic Reconnection*

B. Coppi, L.E. Sugiyama (M.I.T.)

9Q.39 SUPERCONDUCTING AND RELATED FLOWS

S.M. MAHAJAN (Institute for Fusion Studies, The University of Texas at Austin)

9R.01 Flux-limiting and moment expansions in edge plasma modelling

Bastiaan J. Braams (Courant Institute, NYU)

9R.02 0D SOL Model Applied to Simulation of Transport in Tokamaks

P.N. Yushmanov (University of California, San Diego), A.G. Tarditi, G.J. Craddock (Lawrence Livermore National Laboratory), T.W. Petrie (General Atomics)

9R.03 Scrape-off-layer profile modifications by convective cells

J.R. Myra, D.A. D'Ippolito (Lodestar Research Corp., Boulder, CO )

9R.04 Simulation of Divertor Detachment in ITER using the UEDGE Code and an Advanced Neutral Model

F. Wising, S.I. Krasheninnikov, D.J. Sigmar (MIT Plasma Fusion Center, Cambridge, MA 02139 ), D. Knoll (INEL ), T. Rognlien (LLNL )

9R.05 Non-orthogonal Simulation of the Alcator C-Mod Divertor with an Improved Neutral Model

C. Wising, F. Wising, D.J. Sigmar (MIT Plasma Fusion Center, Cambridge, MA 02139 ), D. Knoll (INEL )

9R.06 Divertor Detachment and Fluid Regime of Plasma-Neutral Interaction

T.K. Soboleva (UNAM, Mexico D.F., Mexico ), S.I. Krasheninnikov (MIT Plasma Fusion Center, Cambridge, MA 02139 )

9R.07 Negative Ions and Divertor Plasma Detachment

S.I. Krasheninnikov, D.J. Sigmar (MIT Plasma Fusion Center, Cambridge, MA 02139 )

9R.08 Effect of Impurities Dynamics on Plasma Radiation Instability

D. Kh. Morozov, J.J.E. Herrera (UNAM, Mexico D.F.. Mexico ), S.I. Krasheninnikov (MIT Plasma Fusion Center, Cambridge, MA 02139 )

9R.09 Wall Effects on Electron Kinetics in the SOL

P. Helander, S.I. Krasheninnikov (MIT Plasma Fusion Center, Cambridge MA 02139 )

9R.10 Kinetic Theory in Self-Similar Variables for Neutral Atoms in Edge Plasmas

A. Helander, P. Helander, S.I. Krasheninnikov (MIT Plasma Fusion Center, Cambridge, MA 02139 )

9R.11 Divertor Scaling Laws

P. J. Catto, S. I. Krasheninnikov (MIT Plasma Fusion Center, Cambridge, MA 02139 ), J. W. Connor (UKAEA, Fusion, Colham (Euratom/UKAEA Fusion Association) )

9R.12 1D+2V Fokker-Planck Code ALLA

A.A. Batischeva, O.V. Batishchev, P.J. Catto, S.I. Krasheninnikov, D.J. Sigmar (MIT Plasma Fusion Center, Cambridge, MA 02139 ), M.M. Shoucri, I.P. Shkarofsky (CCFM, Varrenes, Quebec, Canada J3X 1S1 )

9R.13 Kinetic Study of Divertor Plasmas Detachment: Influence of Impurity Radiation

O.V. Batishchev, S.I. Krasheninnikov (MIT Plasma Fusion Center, Cambridge, MA 02139 ), X.Q. Xu, J.A. Byers, R.H. Cohen, T.D. Rognlien (LLNL, Livermore, CA 94550 )

9R.14 Parallelization of and Results from the Kinetic Edge Plasma Code W1

X. Q. XU, J. A. BYERS, R. H. COHEN, T. D. ROGNLIEN (Lawrence Livermore National Lab ), O. V. BATISHCHEV (MIT/LODESTAR ), S. I. KRASHENINNIKOV (MIT )

9R.15 Kinetic Modelling of ELM Propagation in the SOL Plasmas

D.J. Sigmar, S.I. Krasheninnikov, O.V. Batishchev (MIT Plasma Fusion Center, Cambridge, MA 02139 )

9R.16 KINETIC AND TRANSPORT THEORY NEAR THE TOKAMAK EDGE.

R.D. HAZELTINE, P.J. CATTO (Institute for Fusion Studies, The University of Texas at Austim.)

9R.17 Multi-Species, Hybrid Fluid-Kinetic Code for Divertor Tokamak Plasmas

V. Pozharov, A. Pigarov, N. Popkov, R.W. Harvey, O. Sauter (General Atomics )

9R.18 KYRPTON AS A RADIATIVE DIVERTOR CANDIDATE

S.I. Lippmann, K.R. Fournier, M. Finkenthal (Department of Physics and Astronomy, The Johns Hopkins University,), W.H. Goldstein (Lawrence Livermore National Laboratory )

9R.19 Hybrid Model of High-Recycling Divertors.

HUI LONG, C. F. F. KARNEY (Princeton University )

9R.20 New Developments and Applications for the Core-Edge Nonlinear Transport Code CORSICA 2

A.G. TARDITI, R.H. COHEN, G.J. CRADDOCK, J.A. CROTINGER, T.D. ROGNLIEN, A.I. SHESTAKOV, G.R. SMITH (Lawrence Livermore National Lab )

9R.21 Implementation and Results of a New Edge Plasma Electrostatic Potential Model

T. D. ROGNLIEN, N. MATTOR, R. H. COHEN (Lawrence Livermore National Laboratory )

9R.22 Turbulent Diffusion and Finite Mean-Free-Path Effects in a 2-D Model of the Tokamak Edge

GARY R. SMITH, R.H. COHEN, T.D. ROGNLIEN, X. XU (Lawrence Livermore National Lab )

9R.23 Plasma Convection Induced by Toroidal Asymmetries of the Divertor Plates and the Gas-Puff

D.D. Ryutov, R.H. Cohen (Lawrence Livermore National Lab )

9R.24 B2-Eirene modeling of ELMs.

David Coster, Joseph Neuhauser, Ralf Schneider (Max-Planck Institute for Plasma Physics, Garching, Germany), Bastiaan Braams (Courant Institute, New York, USA), Detlev Reiter (Forschungszentrum Jülich (KFA), IPP, Jülich, Germany)

9R.25 Numerical Comparison of Nonlocal Electron Heat Flux Models

Barry Merriman (UC San Diego, Fusion Energy Research Program)

9R.26 Heat Loads to the Divertor Plate and Toroidal Sidewalls due to 3D Neutral Turbuelnce in the Gas Blanket Divertor

L. Vahala (O. D. U), William & Mary Vahala (William & Mary), AS &M Morrison (AS &M), Sigmar Krasheninnikov (M. I. T)

9R.27 Adaptive Grid Algorithms for 1-D Tokamak Edge Plasma Equations.

Jose L. Milovich (NERSC-Lawrence Livermore National Laboratory)

9R.28 Flux Limiting and Time-Dependent Effects

F. T. Plänt (University of Wisconsin-Madison), G. G. Craddock (NERSC-Lawrence Livermore National Laboratory)

9R.29 Three Dimension Simulation of Turbulence in Edge Plasma using MPI

Bijal C. Modi (University of California at Berkeley), Xu Xueqiao, Ronald Cohen (Lawrence Livermore National Laboratory), T. K. Fowler (University of California at Berkeley)

9R.30 Divertor Modelling with Implicit/Explicit Numerical Methods

Marc Day (LLNL)

9R.31 Time-dependent coupling of a plasma/ablation code and an atomic physics/radiation transfer code

G.G. Craddock, A.E. Koniges, T. Pierce, S. Murty, V. Djordjevic (NERSC-Lawrence Livermore National Laboratory), H. Würz (Kernforschungszentrum, Karlsruhe)

9R.32 Dynamics of the Radiative Mantle

Weston M. Stacey (Georgia Institute of Technology)

9R.33 Neutral Particle Cross Section Sensitivity Studies in the Divertor Region

Edward W. Thomas, Thomas M. Evans, Weston M. Stacey (Georgia Institute of Technology)

9R.34 Computational Tools for the Calculation of Impurity Edge Radiation in Tokamaks

Roberto Rubilar, John Mandrekas, Weston M. Stacey (Georgia Institute of Technology)

9R.35 A Multispecies, Collisional-Radiative Code for Atomic Processes in Tokamak Edge Plasmas.

A. Y. PIGAROV, D. P. STOTLER, C. F. F. KARNEY (Princeton University Plasma Physics Laboratory )

9R.36 Initial Release of Degas 2.

C. F. F. KARNEY, D. P. STOTLER, S. JAISHANKAR, A. Y. PIGAROV (Princeton University, Plasma Physics Laboratory )

9R.37 SIMPLE MAP WITH LOW MN PERTURBATIONS FOR A SINGLE-NULL DIVERTOR TOKAMAK

A. Verma, T. Smith, T. Braswell, A. Punjabi, A. Boozer (Center for Fusion Research and Training, Hampton Univ., Hampton, VA 23668)

9R.38 SYMMETRIC SIMPLE MAP WITH DIPOLE PERTURBATIONS FOR A SINGLE-NULL DIVERTOR TOKAMAK

H. Ali, A. Punjabi, A. Boozer (Center for Fusion Research and Training, Hampton Univ., Hampton, VA 23668)

9R.39 Impurity Transport Modeling and Experimental Simulation of a Gas Target Divertor in PISCES-A

Lisa Blush, Lothar Schmitz, Barry Merriman (Fusion Energy Research Program, University of California, San Diego)

9R.40 Redeposition-driven surface impurity transport under steady-state plasma bombardment in PISCES-B Mod

R. Boivin, Y. Hirooka, J. Won (UC San Diego, Fusion Energy Research Program), J. N. Brooks (Argonne National Laboratory), M. J. Khandagle, L. Schmitz (Institute of Plasma and Fusion Research, UCLA)

9R.41 Experimental Studies on Plasma Detachment in a Linear Divertor Simulator

J. Park, S. Cohen (Princeton Plasma Physics Laboratory)

9R.42 Planned Upgrade to the Coaxial Plasma Source Facility for High Heat Flux Plasma Flows Relevant to Tokamak Disruption Simulations

R.W. CARESS, R.M. MAYO (Department of Nuclear Engineering, North Carolina State University)

9R.43 Physics of Material Erosion during a Tokamak Disruption

A. HASSANEIN, D. EHST (ANL ), S. JARDIN, S. COHEN (PPPL )

9R.44 Low-Energy D^+ Sputtering of Be An Angularly-Resolved Study

P.C. Smith, D.N. Ruzic (University of Illinois, Department of Nuclear Engineering )

9R.45 Results of T-11M Vacuum Chamber Boronization with the Use of Deuterated Carborane

O.I. Buzhinskij, I.A. Kovan, A.I. Trashchenkov, A.P. Chernobai (TRINITI Laboratory )

9RV.01 The Science Applications of the High Energy Density Plasmas Created on the Nova Laser

Mordecai D. ("Mordy") Rosen (Lawrence Livermore National Laboratory, California )

9IB.01 Multi-Megawatt Cyclotron Autoresonance Acceleration and Gyroharmonic Conversion

J.L. HIRSHFIELD (Yale University and Omega-P, Inc. )

9IB.02 ROLE OF BEAM QUALITY IN FREE-ELECTRON LASERS

B. Hafizi (Beam Physics Branch, Plasma Physics Division, Naval Research Laboratory)

9IB.03 Gas Breakdown Effects in the Generation and Transport of Light Ion Beams for Fusion

D.R. Welch (Mission Research Corporation, Albuquerque, NM )