1994 ANNUAL MEETING OF THE DIVISION OF PLASMA PHYSICS SESSIONS AND TITLES - TUESDAY, 8 NOVEMBER 1994

SESSION 3RV: REVIEW OF INDIRECT DRIVE ICF

Tuesday morning, 8 November 1994 Nicollet Ballroom at 8:15 R. Bangerter, presiding

3RV 1 Review of Indirect Drive ICF.
J. Lindl, Lawrence Livermore National Laboratory.

SESSION 3IA, TUESDAY MORNING, 9:30

SESSION 3IA: INERTIAL FUSION ENGERY AND HYDRODYNAMIC INSTABILITIES

Tuesday morning, 8 November 1994 Nicollet Ballroom at 9:30 C. Verdon, presiding

3IA 1 The HYLIFE-II Inertial Fusion Energy Power Plane Concept and Implications for IFE.
R.W. Moir, Lawrence Livermore National Laboratory.

3IA 2 Nonlinear Evolution of Multimode Rayleigh-Taylor and Richtmyer- Meskhov Instabilities in Two and Three Dimensions.
D. Shvarts, Nuclear Research Center Negev, Israel and the University of Rochester.

3IA 3 Three-Dimensional Simulations of the Ablative Rayleigh-Taylor Instability.
J.P. Dahlburg, Naval Research Laboratory.

SESSION 3IB, TUESDAY MORNING, 11:00

SESSION 3IB: BASIC TOKAMAK TRANSPORT

Tuesday morning, 8 November 1994 Nicollet Ballroom at 11:00 H. Berk, presiding

3IB 1 Quantitative Predictions of Tokamak Energy Confinement from First Principles Kinetic Simulations.
M. Kotschenreuther, University of Texas.

3IB 2 An Experimental Counter-Example to the Local Transport Paradigm.
K.W. Gentle, University of Texas.

3IB 3 Nondimensional Transport Scaling in DIII-D: Bohm Versus Gyro-Bohm Resolved.
C.C. Petty, General Atomics.

SESSION 3E, TUESDAY MORNING, 9:30

SESSION 3E: ORAL SESSION: MICROWAVE GENERATION, ION AND ELECTRON SOURCES AND ION BEAMS

Tuesday morning, 8 November 1994 Greenway Ballroom, B-E at 9:30 F. Young, presiding

3E 1 Peniotron interaction in a combined wiggler and solenoid magnetic fields.
A.T. Lin, UCLA.

3E 2 A Free-Electron Laser for Fusion Heating.
H.P. Freund 1, M.E. Read, R.H. Jackson 2, D.E. Pershing 3, and J.M. Taccetti, Physical Sciences, Inc. 1=SAIC, McLean, VA 22102; 2=NRL, Washington, DC 20375; 3=MRC, Newington, VA 22122; 4=Univ. of MD, College Park, MD 20742.

3E 3 Magnicon Amplifiew Design with a Second Cyclotron Harmonic $TM_410$- Mode Output Cavity.
A.W. Fliflet and S.H. Gold, Naval Research Laboratory.

3E 4 A DC to Optical Frequency Converter based on Plasma Ionization.
T. Katsouleas, University of Southern California, Los Angelos, CA 90089-0484.

3E 5 Properties of Energy Distribution in Field-Emitted Charged Particle Beam.
H.S. Uhm, NSWC; E.H. Choi, G.S. Cho, and S.O. Kang, Kwangwoon University.

3E 6 Electron Emission: From the Fowler-Nordheim Relation to the Child- Langmuir Law.
Y.F. Liu, U. Michigan; Y.Y. Lau, OmegaP, Inc. and U. Michigan; and R.K. Parker, NRL.

3E 7 Planar Lens Focusing with Field-Emitter Arrays.
Cha-Mei Tang, Thomas A. Swyden 1, and Antonio C. Ting, Naval Research Laboratory. 1=FM Technologies, Fairfax, VA 22032.

3E 8 Nonrelativistic, Planar, Double-Stream Equilibria for Electron Flow in Magnetically Insulated Diodes.
J.A. Swegle, Lawrence Livermore National Laboratory.

3E 9 Externally Driven Active Anode Plasma Source.
D.D. Hinshelwood, R. Fisher, JAYCOR, Inc.; J.M. Neri, W. Noonan, S.J. Stephanakis, F.C. Young, Plasma Physics Division, Naval Research Laboratory; J.G. Greenly, Cornell U.

3E 10 Characterization of the RHEPP/MAP Ion Beam.
T.J. Renk, R.W. Stinnett, K.P. Lamppa, D.C. McIntyre, and R.G. Buchheir, Sandia National Laboratories, Albuquerque, NM 87185; and J.B. Greenly, Cornell University, Ithaca, NY 14852.

3E 11 Time-Resolved Thomson Parabola Studies of Intense Ion Beams.
J.C. Olson, R.K. Appartaim, and J.B. Greenly, Laboratory of Plasma Studies, Cornell University.

3E 12 Nonlinear Resonances, Chaotic Behavior and Halo Formatoin in Intense Charged-Particle Beams.
C. Chen, MIT Plasma Fusion Center; R.C. Davidson, Q. Qian, Princeton Plasma Physics Laboratory; R.A. Jameson, Los Alamos National Laboratory.

3E 13 Higher Order Coulomb Corrections to Uranium Beam Interactions.
M. Waldsmith, R.T. Wheeler, J.W. Norbury, University of Wisconsin- La Crosse.

3E 14 Uranium Beam Lifetime at the Relativistic Heavy Ion Collider.
J. W. Norbury, R.T. Wheeler, M. Waldsmith, University of Wisconsin- La Crosse.

SESSION 3F, TUESDAY MORNING, 9:30

SESSION 3F: ORAL SESSION: DIII-D

Tuesday morning, 8 November 1994 Greenway Ballroom, F-I at 9:30 R. Goldston, presiding

3F 1 DIII-D Radiative Divertor Experiments and Design of a New DIII-D Divertor.
S.L. Allen 1, M.E. Fenstermacher 1, D.N. Hill 1, A.W. Hyatt, C.J. Lasnier 1, A.W. Leonard, R. Maingi 2, M.A. Mahdavi, T.W. Petrie, G.D. Porter 1, M.E. Rensink 1, T. Tognlien 1, M.J. Schaffer, J.P. Smith, R.D. Stambaugh, T.S. Taylor, W.P. West, R.D. Wood 1, General Atomics. 1=Lawrence Livermore National Laboratory; 2=Oak Ridge National Laboratory.

3F 2 Advanced Tokamak Scenarios for the DIII-D Tokamak.
T.C. Luce, T.S. Taylor, Y.R. Lin-Liu, H. St. John, General Atomics.

3F 3 Effects of Bulk Rotation on Plasma Equilibria and Stability in High Performance DIII-D Discharges.
L.L Lao, R.L. Miller, T.H. Osborne, T.S. Taylor, and S.J. Thompson, General Atomics.

3F 4 H-mode Physics Results from DIII-D.
K.H. Burrell, T.N. Carlstrom, S. Coda 1, E.J. Doyle 2, P. Gohil, R.J. Groebner, R.A. Moyer 3, C.L. Rettig 2, T.L. Rhodes 3, D.M. Thomas, J.G. Watkins 4, General Atomics. 1=MIT; 2=UCLA; 3=UCSD; 4=Sandia National Laboratories.

3F 5 H- and VH-mode Inside Wall Limited Discharges in DIII-D.
G.L. Jackson, T.S. Taylor, C.M. Greenfield, D.N. Hill 1, A.W. Hyatt, C.J. Lasnier 1, A.W. Leonard, R. Maingi 2, T.H. Osborne, T.W. Petrie, R. Wood 1, General Atomics. 1=Lawrence Livermore National Laboratory; 2=Oak Ridge National Laboratory.

3F 6 Density Dependence of Divertor Plasma Parameters on DIII-D.
R. Maingi 1, P.K. Mioduszewski 2, C.J. Lasnier 3, A.W. Leonard, J.W. Cuthbertson 4, D.N. Hill 3, D.L. Hillis 2, J.T. Hogan 2, C.C. Klepper 2, M.A. Mahdavi, R.A. Moyer 4, L.W. Owen 2, M.J. Schaffer, M.R. Wade 2, and J.G. Watkins 5, General Atomics. 1=Oak Ridge Associated Universities; 2=Oak Ridge National Laboratory; 3=Lawrence Livermore National Laboratory; 4=University of California, San Diego; 5=Sandia National Laboratories.

3F 7 Applications of DEGAS Neutral Transport Calculations to DIII-D Data and Radiative Divertor Design.
M.E. Fenstermacher, G.D. Porter, M.E. Rensink, S.L. Allen, D.N. Hill, C.J. Lasnier, R. Maingi 1, W.H. Meyer, R.D. Wood, and D.B. Hayden 2, Lawrence Livermore National Laboratory. 1=Oak Ridge National Laboratory; 2=University of Illinois.

3F 8 Experiments with the Divertor Material Exposure System on DIII-D.
N.H. Brooks, R. Batasz 1, J. Brooks 2, D.A. Buchenauer 1, O. Buzhinskij 3, J.W. Cuthbertson 4, T. Hua 2, R. Junge, C.J. Lasnier 5, I. Opimach 3, W. Wampler 1, C.P.C. Wong, General Atomics. 1=Sandia National Laboratories; 2=Argonne National Laboratory; 3=TRINITI Laboratory, Russia; 4=University of California, San Diego; 5=Lawrence Livermore National Laboratory.

3F 9 Recent Physics Results with the Fast Wave Current Drive Systems on DIII-D.
R.I. Pinsker, F.W. Baity 1, G.L. Bell 1, S.C. Chiu, J.S. deGrassie, C.B. Forest, H. Ikezi, J. Lohr, T.C. Luce, C.C. Petty, R. Prater, J.P. Squire 2, D.W. Swain 1, and the DIII-D Group, General Atomics. 1=Oak Ridge National Laboratory; 2=Oak Ridge Institute for Science and Education Postdoctoral Fellow.

3F 10 Effect of Elongation on Plasma Performance - An Experiment for ITER.
J.C. DeBoo, C.M. Greenfield, T.H. Osborne, F. Perkins 1, M.N. Rosenbluth 1, T.S. Taylor, and J. Wesley 1, GEneral Atomics. 1=ITER Joint Central Team, San Diego, CA.

3F 11 The Effect of Plasma Shape on Interchange Stability in DIII-D.
E.A. Lazarus 1, A.W. Hyatt, T.H. Osborne, A.D. Turnbull, M.S. Chu, and the DIII-D Team, General Atomics. 1=Oak Ridge National Laboratory.

SESSION 3P, TUESDAY MORNING, 9:30

SESSION 3P: POSTER SESSION: LASER PLASMA INTERACTIONS-I, AND ICF

Tuesday morning, 8 November 1994 Hyatt Center at 9:30

3P 1 Wakefield Plasma Waves Produced by Intense Sub-Picosecond Lasers.
R. Wagner, J.R. Marques, X. Liu, E. Goodman, J. Kim, A. Maksimchuk, S. Coe, C.-Y. Chien, and D. Umstadter, University of Michigan, Ann Arbor, MI 48109.

3P 2 Laser Wakefield Excitation.
M.C. Downer, C.W. Siders, T. Tajima, and D. Fisher, Institute for Fusion Studies and Department of Physics, The University of Texas at Austin.

3P 3 Intense Laser Interaction Research at NRL - Theory.
E. Esarey, P. Sprangle, J. Krall, A. Ting, and S.K. Ride 1, Naval Research Laboratory. 1=University of California, San Diego.

3P 4 Intense Laser Interaction Research at NRL - Experiment.
A. Ting, A. Fisher, R. Fischer, R. Burris 1, K. Evans 2, K. Krulshelnik 3, J. Grun, J. Krall, E. Esarey, P. Sprangle, Plasma Physics Division, Naval Research Laboratory. 1=RSI, Alexandria, Virginia; 2=George Mason Univ., Fairfax, Virginia; 3=Cornell Univ., Ithaca, New York.

3P 5 Observation of X-ray Generation in the Proff-of-Principle Laser Synchotron Source Experiment.
A. Fisher, A. Ting, R. Fischer, R. Burris 1, K. Evans 2, J. Krall, E. Esarey, P. Sprangle, Plasma Physics Division, Naval Research Laboratory.1=RSI, Alexandria, Virginia; 2=George Mason Univ., Fairfax, Virginia.

3P 6 Laser Pulse Erosion and Local Pump Depletion of Ultra-High Intensity Lasers in Underdense Plasmas.
C.D. Decker, W.B. Mori, and K.-C. Tzeng, UCLA.

3P 7 The Nonlinear Behavior of Self-Modulation, Self-Focusing, and Filamentation of Short-Pulse High-Intensity Lasers.
K.-C. Tzeng, C.D. Decker, W.B. Mori, UCLA; and T. Katsouleas, USC.

3P 8 Spectral Line shape calculations in the xuv for determining the magnetic field in dense short-pulse laser produced plasmas.
M.E. Foord, R. Shepherd, A.L. Osterheld, R.S. Walling, R.E. Stewart, W.H. Goldstein, Lawrence Livermore National Laboratory.

3P 9 Time Dependent Calculations of L-Shell X-ray Spectra Emitted from Short Pulse Laser-Produced Plasmas.
A.L. Osterheld, R.S. Walling, M. Foord, B.K.F. Young, J. Dunn, R. Shepherd, D. Price, G. Guethlein, W.H. Goldstein, R.E. Stewart, Lawrence Livermore National Laboratory.

3P 10 Absorption and X-ray Emission Experiments on a 100 Femtosecond Laser Produced Plasma.
D.F. Price, G. Guethlein, R.L. Shepherd, W.E. White, R.E. Stewart, R.S. Walling, R.M. More, Lawrence Livermore National Laboratory.

3P 11 Thermal and suprathermal transport in plasmas produced by ultra-high contract sub-ps laser at $I\lambda^{2} = 10^{18}W \mu m^{2}/cm^{2}$.
Z. Jiang 1, J.C. Kieffer, J.P. Matte, INRS-Energie et Materiaux, Varennes, Quebec; G. Korn 2, S. Coe, G. Mourou, CUOS, Univ. of Michigan, O. Peyrusse, CEA, Limeil, France. 1=Shanghai Inst. of Opt. and Fine Mechanics, China; 2=Max Born Inst., Berlin, Germany.

3P 12 Harmonic Generation from Picosecond Laser-Plasma Interaction.
L. Zhao, G. Kulcsar, F.W. Budnik, R.S. Marjoribanks, Dept. of Physics, Univ. of Toronto and OLLRC.

3P 13 Practical model for solid target heating by ultrashort laser pulses.
W. Rozmus, V.T. Tikhonchuk 1, Department of Physics, University of Alberta, Edmonton, Canada; R. Cauble, Lawrence Livermore National Laboratory, Livermore. 1=P.N. Lebedev Physics Institute, Moscow, Russia.

3P 14 Three-Dimensionally Stochastic Propagation of Laser Beams in Plasmas.
Cantao Zhou, and Xian-tu He, Institute of Applied Physics and Computational Mathematics, P.O. Box 8009, Beijing 100088, P.R. China.

3P 15 Laser Beam propagation through underdense plasmas.
P.E. Young, S.C. Wilks, W.L. Kruer, J. Hammer, Lawrence Livermore National Laboratory.

3P 16 Time evolution of the filamentation instability.
Edward A. Williams, L472, Lawrence Livermore National Laboratories, Box 5508, Livermore, CA 94550.

3P 17 Experimental Investigation of Thermal Self-Focusing of Counter- Propagating Optical Beams in Plasma.
L.S. Ingraham, K.A. Marsh, A. Lal, and C. Joshi, Electrical Engineering Department, UCLA; and C.J. McKinstrie, University of Rochester.

3P 18 Thermal Filamentation of Counterpropagating Laser Beams.
J.S. Li, and C.J. McKinstrie, LLE, U. of Rochester; C. Joshi and K. Marsh, UCLA.

3P 19 Experiments on Forward Brillouin Instability of Crossed Laser Beams in an Underdense Plasma.
K. Marsh, and C. Joshi, UCLA; and Colin McKinstrie, University of Rochester.

3P 20 Modeling of Plasma-Electrode Pockels Cells.
C.D. Boley, A. Tarditi, and Mark A. Rhodes, Lawrence Livermore National Laboratory.

3P 21 Beam Diagnostics for the NIKE KrF Laser Facility.
A.V. Deniz, Science Applications International Corporation; M.S. Pronko, J.A. Stamper, C.A. Sullivan, Naval Research Laboratory, Plasma Physics Division.

3P 22 Advanced Mode-Measurement of High Repetition-Rate and Discharge- Pumped KrF Laser.
K. Kasuya, T. Suzuki, Y. Itoh, M. Watanabe, Y. Kawakita 1, T. Kuwahara 1, K. Shioda 2, and H. Kanazawa 3, H. Okuda 4, Dept. of Energy Sci. Tokyo Inst. of Tech. 1=Nissin Electric Co. Ltd.; 2= Toshiba Co. Ltd.; 3=IHI Co. Ltd., 4=Princeton Plasma Physics Lab.

3P 23 Development of High Power KrF Laser for Laser Plasma Interaction.
Wang Naiyan, Shan Yusheng, Ma Weiyi, Zhou Chuangzhi, Zhao Rongsheng, Yang Dawei, Wang Xiaojun, Yao Gang and Wang Ganchang, China Institute of Atomic Energy, People's Republic of China.

3P 24 About Some Researches for a 2x5 GW Laser-Pellet Fusion Reactor.
S.M. Ayub, 166 N. McCarrons Blvd., Roseville, MN 55113.

3P 25 The 0.53 $\mu m$ Laser Option for ICF.
E.M. Campbell, D. Eimerl, M.D. Rosen, W.L. Kruer, Lawrence Livermore National Laboratory.

3P 26 Antiproton-Driven Inertial Confinement Fusion Reactor.
B. Cassenti, United Technologies Research Center; T. Kammash and D.L. Galbraith, The University of Michigan.

3P 27 Bright Picosecond X Rays from Intense Sub-Picosecond Laser-Plasmas.
J. Workman, A. Maksimchuk, X. Liu, U. Ellenberger, S. Coe, C.-Y. Chien, and D. Umstader, University of Michigan, Ann Arbor, MI 48109.

SESSION 3Q, TUESDAY MORNING, 9:30

SESSION 3Q: POSTER SESSION: IONOSPHERE, SPACE LAB EXPERIMENTS, DUST

Tuesday morning, 8 November 1994 Hyatt Center at 9:30

3Q 1 Particle Acceleration by Lower-Hybrid Cavitons.
R. Bingham 1, V.N. Tsytovich 1, J.J. Su 2, and J.M. Dawson 3, UCLA. 1=Rutherford Appleton Laboratory, UK; 2=National Central University, Taiwan; 3=University of California, Los Angeles, USA.

3Q 2 Cyclotron Harmonic Effect on Stimulated Electromagnetic Emissions (SEEs) in Ionospheric Modification Experiments.
J. Huang and S.P. Kuo, Weber Research Institute, Polytechnic University, New York.

3Q 3 Conversion of Ordinary Mode Electromagnetic Wave into Upper Hybrid Mode Due to Density Gradient in the Ionoshpere.
S.N. Antani, D.J. Kaup, and N.N. Rao, Clarkson University, Potsdam, NY 13699.

3Q 4 Experimental Study of Double Resonance Parametric Excitations in Ionosphere.
B. Song, A.Y. Wong, J. Villasenor, G. Rosenthal, M. McCarrick, J. Pau, and D. Sentman, University of California, Los Angeles.

3Q 5 Comparison of ELF/VLF Generation Modes in the Ionosphere by the HIPAS Heater Array.
J. Villasenor, A. Wong, B. Song, D. Sentmann 1, M. McCarrick 2, and J. Pau, Department of Physics, UCLA, Los Angeles, CA 90024. 1=University of Alaska, Fairbanks, Ak; 2=ARCO Power Technologies, Washington, DC.

3Q 6 Effect of Density Fluctuations on the Self-Focusing Instability in Ionospheric Plasmas.
P.K. Chaturvedi and K. Papadopoulos, Dept. of Astronomy, University of Maryland; P.N. Guzdar, Institute for Plasma Research, Univeristy of Maryland; and M.J. Keskinen and S.L. Ossakow, Naval Research Laboratory.

3Q 7 Anti-Stokes Langmuir Waves in the HF Heated Ionosphere.
M.C. Lee, K.D. Vilece, D.T. Moriarty, MIT Plasma Fusion Centr; M.P. Sulzer, Arecibo Observatory; K.M.Groves, Phillips Laboratory; and S.P. Kuo, Polytechnic University.

3Q 8 Convective saturation of Langmuir waves during ionospheric modification of a Barium cloud.
M.V. Goldman and D.L. Newman, University of Colorado, Boulder; and R.P. Drake and B.B. Afeyan, LLNL.

3Q 9 Formation of Electron Tails in 1D Vlasov Simulations of Langmuir Turbulence in the Heated Ionosphere.
J.G. Wang, D.L. Newman, and M. V. Goldman, APAS Dept., University of Colorado at Boulder.

3Q 10 Reflection of Electromagnetic Waves from Fluctuating Plasma Layer.
V. Berger, Lakeland College.

3Q 11 Ion-cyclotron turbulence driven by transverse-volocity shear.
J.J. Carroll III, W.E. Amatucci, and M.E. Koepke, Physics Department, West Virginia University, Morgantown, WV 26506-6315.

3Q 12 Low-frequency branches of a transverse-velocity-shear-driven instability.
V. Gavrishchaka, M.E. Koepke, J.J. Carroll III, Physics Department, West Virginia University, Morgantown, WV 26506-6315; and G. Ganguli, Code 6794, Naval Research Laboratory, Washington, DC 20375.

3Q 13 Ground Based Experiments on Vehicle Charging: Recent SPEAR Laboratory Results.
J. Bowles, W.E. Amatucci, D.N. Walker, Carl Siefring, J. Antoniades, and B. Ripin, Plasma Physics Division, Naval Research Laboratory.

3Q 14 Calculation of Collision Cross Sections for Atomic Line Broadening in the Plume of the Space Shuttle Main Engine (SSME).
T.C. Dean and C.A. Ventrice, Tennessee Technological University, Electrical Engineering Department, cookeville, Tennessee 38505.

3Q 15 Charged-Induced Recovery of Ozone concentration after Catalytic Destruction by Chloroflurocarbons.
A.Y. Wong, DK. Sensharma, R.G. Suchannek, University of California; and D. Ho, Lawrence Livermore National Laboratory, University of California, Berkeley.

3Q 16 Laboratory Simulation of Field-Aligned Currents in the Magnetosphere.
S. Drum, F.J. Wesel, and W.W. Heidbrick, UC. Irvine.

3Q 17 Phase-space flow of energetic particles induced by random impulses and by coherent waves in dipole-like magnetic fields.
M.E. Mauel and H.P. Warren, Columbia University.

3Q 18 Observation of chaotic particle transport induced by drift-resonant fluctuations in a magnetic dipole field.
H.P. Warren and M.E. Mauel, Columbia University.

3Q 19 Non-linear RF Heating and Cooling at HIgh and Low Pressure.
M.D. Simon, H. Zwi, A.Y. Wong, and R. Wuerker, University of California, Los Angeles.

3Q 20 Ionospheric Chamber Experiments on Plasma Waves with Versatile Toroidal Facility (VTF).
D.T. Moriarty, M.C. Lee, R.J. Riddolls, and S.M. Murphy, MIT Plasma Fusion Center, Cambridge, MA. 02139.

3Q 21 Transport and thermodynamics of strongly-coupled dust systems in plasmas.
S. Hamaguchi and R.T. Farouki, IBM Thomas J. Watson Research Center, P.O. Box 218, Yorktown Heights, NY 10598.

3Q 22 Static and Dynamic properties of 'dust crystals' in the sheath of radio frequency discharges.
A. Piel, A. Melzer, T. Trottenberg, Christian-Albrechts-Universitat, Kiel, (Germany).

3Q 23 Simulation of ion orbits in a dusty plasma.
A. Ottenheimer, J. Goree, Dept. of Physics, Univ. of Iowa.

3Q 24 Cosmic grain growth by accretion and coagulation.
G. Praburam, J. Goree, Dept. of Physics and Astronomy, Univ. of Iowa.

3Q 25 Structure of a Coulomb solid in a polydispersive dusty plasma.
C.Cui, J. Goree, R. Quinn, Dept. of Physics and Astronomy, Univ. of Iowa.

3Q 26 Coulomb Crystallization in a Dusty Plasma Investigated in an RF Parallel Plate Argon Glow Dishcarge.
H. Thomas, G. Morfill, Max- Planck-Institut fur extraterrestrische physik, Garching, Germany.

3Q 27 Theory of Dust Acoustic Shocks.
F. Melandso, The Auroral Observatory, University of Tromso, N-9037 Tromso, Norway; P.K. Shulka, Institut fur Theoretische Physik IV, Ruhr-Universtitat Bochum, D-44780 Bochum, Germany.

3Q 28 An Analytic Model for Ion Trapping by Charged Dust Particles in Plasma.
Huan Lee, Los Alamos National Laboratory.

3Q 29 Nonlinear Debye Shielding in Dusty Plasmas.
D.H.E. Dubin, Univ. of Calif. San Diego.

3Q 30 EIC Waves in a Dusty Plasma.
A. Barkan, N. D'Angelo, and R.L. Merlino, U. of Iowa.

3Q 31 The Kelvin-Helmholtz (K-H) Instability in a Negative Ion Plasma.
T. An, M. D'Angelo, and R.L. Merlino, U. of Iowa.

SESSION 3R, TUESDAY MORNING, 9:30

SESSION 3R: POSTER SESSION: ITER

Tuesday morning, 8 November 1994 Hyatt Center at 9:30

3R 1 The ITER EDA Outline Design.
P-H. Rebut, V. Chuyanov, M. Huguet, R. Parker, Y.Shimomura, and the ITER Jount Central Team and Home Teams.

3R 2 ITER Physics Basis.
F. Perkins, ITER Joint Central Team, ITER Joint Work Site, San Diego.

3R 3 Physics Design Basis and Performance Assessments for ITER.
J. Wesley, P. Barabaschi, D. Boucher, F. Perkins, D. Post and P-H. Rebut, ITER Joint Central Team, San Diego, CA.

3R 4 US Contributions to ITER Physics.
N. Sauthoff, Princeton University and the US ITER Home Team.

3R 5 Modelling ITER Perfromance and Operation.
D. Boucher, ITER San Diego Joint Central Team.

3R 6 Assessment of ITER Performance Using the Multi-Machine L- and H-Mode Databases.
ITER Confinement Database and Modeling Working Group.

3R 7 MHD global mode stability for ITER L- and H-mode profiles.
J. Hogan (ORNL); A. Martynov (Keldysh Institute).

3R 8 ITER Steady State Operation and Advanced Scenarios.
W.M. Nevins, R.H. Bulmer, and L.D. Pearlstein, LLNL; J. Manickam, PPPL; and the ITER JCT and Home Teams.

3R 9 ITER Divertor Concept and Reference Design.
K.J. Dietz and the ITER Joint Central Team.

3R 10 ITER Divertor Modeling: Predictions and Experimental Validation.
D. Post, A. Kukushkin, M. Sugihara, B. Braams, S. Cohen, Yu. Igitkhanov, G. Janeschitz, D. Knoll, A. Loarte, G. Pacher, H. Pacher, A. Pigarov, G. Porter, V. Pozharov, D. Reiter, T. Tognlien, D. Rizic, L. Schmitz, R. Schneider, R. Simonini, A. Taroni, N. Ueda, R. Vesey, and ITER Joint Central Team and Home Teams.

3R 11 Analytic Criteria for Power Exhaust in Divertors due to Impurity Radiation.
N. Putvinskaya, F.W. Perkins, D. Post, and M. Rosenbluth, ITER Joint Work Site, San Diego.

3R 12 ITER Operation With Radiating Plasma Mantle.
J. Mandrekas, W.M. Stacey, Georgia Institute of Technology.

3R 13 A Radiative Divertor Study using the NEWT-1D code.
J.S. Kim, FAR; D. Post, ITER; A.W. Leonard and J.M. Greene, GA.

3R 14 Detailed Radiative Transport Modeling of a Radiative Divertor.
A.S. Wan, H.E. Dalhed, H.A. Scott, D.E. Post 1, T.D. Rognlien, Lawrence Livermore National Laboratory. 1=ITER Joint Central Team, San Diego Co-Center.

3R 15 Experimental studies of detached helium plasmas.
G.S. Chiu, S.A. Cohen, Princeton University.

3R 16 Superpermeation of hydrogen through palladium.
Jaeyoung Park and S.A. Cohen, Plasma Physics Laboratory, Prenceton University, Princeton, NJ 08543.

3R 17 Disruption Scenarios for ITER.
N. Fujisawa, S. Ortolani, J. Wesley, D. Post, P. Barabaschi, V. Mukhovatov, M. Rosenbluth, ITER Joint Central Team, ITER Joint Work Site, San Diego, CA.

3R 18 ITER Diagnostics.
A.E. Costley, L. DeKock, V.S. Mukhovatov, S. Yamamoto, K.M. Young, and the ITER Joint Central Team and Home Teams, ITER-EDA.

3R 19 Vapor Shielding Calculations for ITER-Scale Disruptions Including Line Transfer and Magnetic Field Inhibited Evaporation.
A.E. Koniges, D.C. Eder and A.S. Wan, Lawrence Livermore National Laboratory; D.E. Post, ITER Joint Central Team.

3R 20 MHD Stability of the ITER Discharge.
S.C. Jardin, V. Drozdov 1, C.E. Kessel, D.E. Monitcello, and N. Pomphrey, Princeton University. 1=University of Maryland, College Park, MD.

3R 21 Finite-$\beta$ Effects on Toroidal Alfven Eigenmode Stability.
J.W. Van Dam, H.L. Berk, H.V. Wong, A.Y. Aydemir, Institute for Fusion Studies, The University of Texas at Austin.

3R 22 Advanced Tokamak Scenario for ITER.
J.J. Ramos, P.T. Bonoli, MIT Plasma Fusion Center; A. Maretynov, Keldysh Institute of Applied Mathematics, Moscow, Russia.

3R 23 Isotopic Tailoring of Fuel Density Profiles Using Auxiliary Fueling Sources and Pumping.
W.A. Houlberg, S.E. Attenberg, ORNL.

3R 24 Performance Modeling of ITER using CORSICA and SUPERCODE.
S.W. Haney, L.J. Perkins, J.A. Crotinger, Lawrence Livermore National Laboratory; J.D. Galambos, Oak Ridge National Laboratory; C. Bolton, DOE.

3R 25 Ray-Tracing Calculation of ECH Current Drive in ITER.
A.H. Kritz and D.M. Brace, Department of Physics, Lehigh University; and G.R. Smith, W.M. Nevins, and M.A. Makowski, Lawrence Livermore National Laboratory.

3R 26 Status of the PISCES-Upgrade Project.
R. Doerner and R.W. Conn, University of California-San Diego.

SESSION 3S, TUESDAY MORNING, 9:30

SESSION 3S: POSTER SESSION: TEXT

Tuesday morning, 8 November 1994 Hyatt Center at 9:30

3S 1 A National Spherical Tokamak Facility.
S.C. McCool, P.H. Edmonds, James W. Jagger, David A. Pavlovsky, David R. Terry, the TEXT-U Staff, Fusion Research Center, The University of Texas at Austin.

3S 2 Search for Fine Radial Structure in Te Profiles.
H. Gasquet, G. Cima, K.W. Gentle, J. Lierzer, S. McCool, P.E. Phillips, C. Watts, A.J. Wootton, Fusion Research Center, The University of Texas at Austin.

3S 3 Thomson Scattering Measurements in TEXT-U.
B.Z. Zhang and P.E. Phillips, Fusion Research Center, The University of Texas at Austin.

3S 4 Design of a Thomson Scattering System for the Divertor Region on TEXT-U.
P.E. Phillips, Fusion Research Center, The University of Texas at Austin.

3S 5 Analysis of Transient Ablation Phenomena in TEXT-U.
G.G. Castle, S. C. McCool, Fusion Research Center, The University of Texas at Austin.

3S 6 High Velocity Compact Torus Injector for the TEXT Tokamak.
M.R. Brown, P.K. Loewenhardt, J. Yee, D.R. Derkits, and P.M. Bellan, Caltech.

3S 7 Simple Model for Cold Pulses.
K.W. Gentle, Fusion Research Center, The University of Texas at Austin.

3S 8 Efficient Measurement of Thermal Flows in TEXT-U.
D.J. Storek, K.W. Gentle, Fusion Research Center, The University of Texas at Austin.

3S 9 Thermal Flux Measurements on TEXT-U.
K.A. Schroder, K.W. Gentle, Fusion Research Center, The University of Texas at Austin.

3S 10 Investigations of Neutral Transport Asymmetries in TEXT-U.
X. Bonnin, W.L. Rowan, P.D. Hurwitz, Fusion Research Center, The University of Texas at Austin.

3S 11 Optical Imaging of Edge Fluctuations in the High-Field Side of TEXT-U.
P.D. Hurwitz, William L. Rowan, Fusion Research Center, The University of Texas at Austin.

3S 12 Boronization of the First Wall of the Texas Experimental Tokamak (TEXT-U).
O.I. Buzhinskij and A.I. Trazhenkov, TRINITI, Troitzk, Russia; William L. Rowan, Xavier Bonnin, and P.D. Hurwitz, Fusion Research Center, The University of Texas at Austin.

3S 13 Particle Balance and Impurity Behavior in Diverted Plasmas in TEXT-U.
W.L. Rowan, R.D. Bengston, X. Bonnin, K.W. Gentle, P.H. Edmonds, P.D. Hurwitz, W.H. Miner, Jr., P.E. Phillips, K.A. Schroder, E.R. Solano, D.J. Storek, and J.R. Uglum, Fusion Research Center, The University of Texas at Austin.

3S 14 Density Profile Analysis on TEXT-U from the FIR Interferometer.
K.L. Chiang, G.A. Hallock, R.V. Bravenec, E.R. Solano, M.L. Gartman, R. Chatterjee, A. Darbar, and S. Reedy, Fusion Research Center, The University of Texas at Austin.

3S 15 First Results from the Phase Contrast Imaging Diagnostic on TEXT- UPGRADE.
R. Chatterjee, G.A. Hallock, M.L. Gartman, J.P. Allain 1, E.A. Chowdhury 2, Fusion Research Center, The University of Texas at Austin. 1=EXCELL visitor, Cal. State Polytechnic Univ., Pomona, CA; 2=Nat. Undergrad. Fellow in Plasma Physcis, Wabash College, IN.

3S 16 FIR Measurement of Electron Density and Poloidal Magnetic Field Profiles on TEXT-Upgrade.
Y. Jiang, D.L. Brower, L. Zeng, and B.W. Rice 1, Department of Electrical Engineering, and Institute of Plasma and Fusion Research, University of California, Los Angeles. 1-Lawrence Livermore National Laboratory.

3S 17 Collective-Scattering Measurments of Electron Density Fluctuations in TEXT-Upgrade.
D.L. Brower, Y. Jiang, and L. Zeng, Department of Electrical Engineering, and Institute of Plasma and Fusion Research, University of California, Los Angeles.

3S 18 BES Density Fluctuation Measurements on TEXT and a Comparison with HIBP, ECE and FIR Data.
Y.Y. Karzhavin, R.D. Durst 1, D.L. Brower 2, G. Cima, R.J. Fonck 1, J.W. Heard, J.S. Kim 1, A. Ouroua, C. Watts 3, A.J. Wootton, Fusion Research Center, The University of Texas at Austin. 1=University of Wisconsin, Madison; 2=University of California, Los Angeles 3= Auburn Unviersity, Auburn.

3S 19 Interpretations of Interior Fluctuation Measurements on TEXT-U.
R.V. Bravenec, A.J. Wootton, D.W. Ross, D.L. Brower 1, R.D. Durst 2, G. Cima, J.W. Heard 3, Y.Y. Karzhavin, A. Ouroua 3, and C. Watts 4, Fusion Research Center, The University of Texas at Austin.

1=University of California, Los Angeles, CA; 2=University of Wisconsin, Madison, WI; 3=Rensselaer Polytechnic Institute, Troy, NY; 4=Auburn University, Auburn, Al.

3S 20 Active Probe Signal Propagation in the Plasma Edge.
D.L. Winslow, B. Richards, T. Uckan , A.J. Wootton, Roger D. Bengston, J.L. Craig, W. A. Craven, P.E. Phillips, J. Uglum, Fusion Research Center, The University of Texas at Austin. 1=Fusion Energy Division, Oak Ridge National Laboratory.

3S 21 Active Feedback Control of Plasma Edge Fluctutations.
B. Richards, D.L. Winslow, T. Uckan 1, A.J. Wootton, B.A. Carreras 1, Roger D. Bengston, J. Craig, G.X. Li, P.E. Phillips, H.U.W. Tsui, J. Uglum, Fusion Research Center, The University of Texas at Austin. 1=Fusion Energy Division, Oak Ridge National Laboratory.

3S 22 Modification and Control of Edge Turbulence.
Roger D. Bengston, K.W. Gentle, G.X. Li, H. Lin, B. Richards, H.Y.W. Tsui, J. Uglum, D.L. Winslow, and A.J. Wootton, Fusion Research Center, The University of Texas at Austin; T. Uckan and B.A. Carreras, Oak Ridge National Laboratory.

3S 23 First Results from Time Domain Triple Probe Measurements on TEXT-U.
M.A. Meier, G.A. Hallock, R.D. Bengston, H.Y.W. Tsui, Fusion Research Center, The University of Texas at Austin.

3S 24 I-V Probe Characteristics in Scrape Off Layer of TEXT-U.
Stefan Jachmich and Rodge D. Bengston, Fusion Research Center, The University of Texas at Austin.

3S 25 Initial Results from a Charge Exchange q-Diagnostic on TEXT-U.
L. Duraiappah, P.M. Valanju, Rodge D. Bengston, Y. Karzhavin, and A. Nikitin, Fusion Research Center, The University of Texas at Austin.

3S 26 Suprathermal Electron Studies During ECRH on TEXT-U.
R.F. Steimle, D.R. Roberts, G. Giruzzi 1, Fusion Research Center, The University of Texas at Austin. 1=Association EURATOM-VEA, Centre d'Etudes de Cardarache, France.

3S 27 ECH Power Deposition During Enhanced Confinement Operation of TEXT-U.
D.R. Roberts, D.C. Sing, H. Gasquet, L. Lierzer 1, and D.A. Pavolovsky. Fusion Research Center, The University of Texas at Austin. 1=MIT.

3S 28 Plasma Electric Potential Measurements on TEXT-Upgrade with the 2 MeV Heavy Ion Beam Probe.
P.E. McLaren, A. Ouroua, J.W. Heard, T.P. Crowley, P.M. Schoch, K.A. Connor, R.L. Hickok, A. Fujisawa 1, R.R. White, and D.R. Demers, Rensselaer Polytechnic Institute, Troy, NY 12180. 1=National Institute for Fusion Science, Nagoya, Japan.

3S 29 Poloidal Wave Number Measurements using the 2 MeV Heavy Ion Beam Probe on TEXT-U.
J.W. Heard, A. Ouroua, A. Fujisawa 1, T.P. Crowley, P.M. Schoch, R.R. White, Rensselaer Polytechnic Institute, Troy, NY. 1=National Institute for Fusion Science, Nagoya, Japan.

3S 30 Fluctuation Measurements on TEXT-U using the 2 MeV Heavy Ion Beam Probe.
A. Fujisawa 1, J.W. Heard, A. Ouroua, T.P. Crowley, P.M. Schoch, K.A. Connor, R.L. Hickok, R.R. White, and P.E. McLaren, Rensselaer Polytechnic Institute, Troy, NY 12180. 1=National Institute for Fusion Science, Nagoya, Japan.

3S 31 Measurement of the Poloidal Magnetic Flux in TEXT using a Heavy Ion Beam Probe.
J.G. Schwelberger, T.P. Crowley, K.A. Connor, P.M. Schoch, Rensselaer Polytechnic Institute, Troy, NY 12180-3590.

3S 32 A Better Electric Potential Fluctuation Detector for the 2 MeV Heavy Ion Beam Probe on TEXT-U.
W.G. Russell, P.M. Schoch, T.P. Crowley, J.G. Schatz, Rensselaer Polytechnic Institute, Troy, NY 12180-3590.

3S 33 Initial Results of Stochastic Field Experiments (SFX) on TEXT-U.
W.A. Craven, S.C. McCool, A.J. Wootton, Fusion Research Center, The University of Texas at Austin.

3S 34 Density Fluctuation Measurements during ECH in TEXT_U.
D.C. Sing, A. Ouroua 1, D.L. Brower 2, John Heard 1, Y. Jiang 2, D.R. Roberts, Fusion Research Center, The University of Texas at Austin. 1=Rensselaer Polytechnic Institute, Troy, NY; 2=University of California, Los Angeles, CA.

3S 35 Magnetic Flux Surface Reconstruction in TEXT-Upgrade.
J.L. Craig, P.E. Phillips, Fusion Research Center, The University of Texas at Austin.

3S 36 Radiation Drive Studies of TEXT-U.
Yizhi Wen 1, R.V. Bravence, R. Bengston, B. Richards, and J. Uglum, Fusion Research Center, The University of Texas at Austin. 1=University of Science and Technology of China, Hefei, 230026, PRC.

3S 37 Radial and poloidal correlation lengths of electron temperature fluctuations measured with electron-cyclotron emission on TEXT-U.
Christopher Watts, G. Cima 1, R. Gandy, Auburn University, Alabama. 1=Fusion Research Center, Austin, Texas.

3S 38 Soft X-ray Emission Measurements in TEXT-U.
J.R. Lierzer, R.D. Petrasso, C.K. Li, W. Wenzel, Plasma Fusin Center, Massachusetts Institute of Technology; and S.C. McCool, A.J. Wooton, W.L. Rowan, E.R. Solano, G.A. Hallock, D.L. Brower, G. Cima, B.F. Hall, R.F. Steimle, and H. Gasquet, Fusion Research Center, The University of Texas at Austin.

3S 39 Lithium Beam Measurements of Edge Electron Density Profiles in TEXT.
A.M. Howald, J.M. McChesney, and W.P. West, General Atomics.

3S 40 Tokamak Plasma Disruptions Predicted by Neural Net.
Z. Lin, J.V. Hernandez, A. Vannucci, T. Tajima, W. Horton, and S.C. McCool, Institute for Fusion Studies and Fusion Research Center, The University of Texas at Austin.

3S 41 A Modern Software Environment for Scientific Data Analysis and Visualization.
W.H. Miner, Jr., R.D. Bengtson, P.D. Hurwitz, A.B. Macmahon, W.L. Rowan, J.C. Wiley, and D.L. Winslow, Fusion Research Center, The University of Texas at Austin.

SESSION 3T, TUESDAY MORNING, 9:30

SESSION 3T: POSTER SESSION: STELLARATORS, Z-PINCHES, PLASMA FOCI

Tuesday morning, 8 November 1994 Hyatt Center at 9:30

3T 1 HSX: A Project Overview and Current Status.
D.T. Anderson, A.F. Almagri, F.S.B. Anderson, P.G. Matthews, J.L. Shohet, and J.N. Talmadge, Torsatron/Stellarator Laboratory, University of Wisconsin- Madison.

3T 2 HSX: Physics Program Expected Performance and Experimental Flexibility.
J.N. Talmadge, A.F. Almagri, F.S.B. Anderson, D.T. Anderson, P.G. Matthews, and J.L. Shohet, Torsatron/Stellarator Laboratory, University of Wisconsin-Madison; N. Karulin, Max-Planck- Institut fur Plasmaphysik, Garching.

3T 3 HSX: Engineering Design of the Modular Coil Set.
P.G. Matthews, A.F. Almagri, D.T. Anderson, F.S.B. Anderson, J.L. Shohet and J.N. Talmadge, Torsatron/Stellarator Laboratory, University of Wisconsin- Madison.

3T 4 HSX: Engineering Design of the Vacuum Vessel, Coils and Support Structure, and Alignment Techniques.
F.S.B. Anderson, A.F. Almagri, D.T. Anderson, P.G. Matthews, J.L. Shohet and J.N. Talmadge, Torsatron/Stellarator Laboratory, University of Wisconsin-Madison.

3T 5 Initial Operation of the TJ-I U Torsatron.
E. Ascasibar, C. Alehaldre, J. Alonso, E. de la Cal, T. Estrada, I. Garcia Cortes, C. Hildago, A. Lopez-Fraguas, E. de la Luna, R. Martin, F. Medina, M.A. Ochando, I. Pastor, M.A. Pedrosa, J. Qin, L. Rodriguez, J. Sanchez, F. Tabares, D. Tafalla, B. Zurro, Asociacion EURATOM-CIEMAT para Fusion 28040 Madrid, Spain; L.M. Kovryzhnykh, D.C. Akulina, O.F. Fedyanin, L.V. Kolik, K.M. Likin, Yu.I. Netchaev, A.Ye. Petrov, K.A. Sarakyan, General Physics Institute, Russian Academy of Sciences, Moscow, Russia.

3T 6 Results from the H-1 Heliac: Vacuum Magnetic Surface Tomography, Plasma Fluctuations, Diamagnetism.
B.D. Blackwell, G.G. Borg, R.L. Dewar, H.J. Gardner, S.M. Hamberger, J. Howard, D. Rudakov, M.G. Shats, L.E. Sharp, and R.B. Tumlos, Australian National Univ.

3T 7 Nonlinear Behavior of Kelvin-Helmholtz Instability in a Heliotron Plasma with Poloidal Velocity Shear.
Y. Ishii, M. Wakatani, Plasma Physics Laboratory, Kyoto University; K. Watanabe, National Institute for Fusion Science.

3T 8 Investigation of the effect of viscosity and ion-neutral collisions on damping of the induced flows in IMS.
H. Dahi, J.N. Talmadge, and J.L. Shohet, Torsatron/Stellarator Laboratory, University of Wisconsin-Madison.

3T 9 Stellarator Power Plant Study.
James Rome for the SPPS team.

3T 10 Stellarator Transport Optimization With Self-Consistent Electric Fields.
J.F. Lyon, Oak Ridge National Laboratory; S.L. Painter, Australian National University; L.M. Kovrizhnykh, General Physics Institute, Moscow; and K. Gulec, University of Tennessee, Knoxville.

3T 11 ATF ECH System Long Pulse Operation.
T.S. Bigelow, C.R. Schaich, C.T. Wilson, J. White, ORNL.

3T 12 ECE Radiometer Measurement of Electron Temperature on the ATF Stellarator.
J.B. Wilgen, A.C. England, T.S. Bigelow, G.R. Dyer, D.E. Greenwood 1, M. Murakami, C.R. Schaich, J.A. White 2, and J.L. Yarber, ORNL. 1=Computing Applications Division, Martin Marietta Energy Systems, Inc.; 2=Engineering Division, Martin Marietta Energy Systems, Inc.

3T 13 Additional Alfven Resonances in Stellarators.
E. Fedutenko, I. Girka, V. Lapshin, K. Stephov, Kharkov State University, Kharkov, Ukraine.

3T 14 The MHH Stellarator.
P.R. Garabedian, N.Y.U.

3T 15 Use of Toroidal Harmonics to Model Magnetic Fields in the Compact Auburn Torsatron.
E. Thomas, Jr., G. Sasser, S. Knowlton, R. Gandy, J.D. Hanson, J. Cary, 1, Auburn University. 1=Department of Astrophysical, Planetary, and Atmospheric Science, University of Colorado.

3T 16 Experimental Study of Magnetic Island Effects on the Pure Electron Transport.
H. Lin, R.F. Gandy, S.F. Knowlton, M. Owens, G. Sasser, Auburn Univerisity.

3T 17 Effects of Magnetic Perturbations on Ion Trajectories in the Compact Auburn Torsatron.
G.E. Sasser, S.F. Knowlton, R.F. Gandy, H. Lin, E.E. Thomas, and M.A. Owens, Auburn University.

3T 18 Electron Drift Surface Mapping on the Compact Auburn Torsatron.
R. Gandy, S. Knowlton, H. Lin, M. Owens, and D. Pritchard, Physics Dept., Auburn University.

3T 19 Studies of X-Pinch Plasmas.
D.A. Hammer, D. H. Kalantar 1, S.A. Pikuz 2, and T.A. Shelkovenko 2, Cornell University, Ithaca, NY. 1=Lawrence Livermore National Laboratory; 2=P.N. Lebedev Physical Institute, Moscow, Russia.

3T 20 Steady Flow States of the FTZP.
C.W. HArtman and J.L. Eddleman, Lawrence Livermore National Laboratory.

3T 21 The time dependent charge state and current distributions in an imploding Z-pinch plasma.
G. Davara, L. Gregorian, E. Kroupp, Y. Markus, Y. Maron, A. Fruchtman, W. Peter, Department of Particle Physics, Weizmann Institute of Science; and A. Fisher, NRL, Wash. DC, USA.

3T 22 Variable Mass Wire Arrays to Create Hotspots in Radiating Z-Pinches.
J.L. Eddleman 2, K.G. Estabrook 2, J.S. DeGroot 1, J. Hammer 2, R.B. Spielman 3. 1=UC Davis; 2=Lawrence Livermore National Laboratory; 3=Sandia National Laboratory.

3T 23 Non-Thermal Electrons in Z-Pinches.
M. Tabak 1, J.S. DeGroot 2, K.G. Estabrook 2, D. Mosher 4, R.B. Spielman 3, T. Sanford 3. 1=UC Davis; 2=Lawrence Livermore National Laboratory; 3=Sandia National Laboratory; 4=Naval Research Laboratory.

3T 24 Plasma Interpenetration in Imploding Z-Pinches.
J.S. DeGroot 1, B. Bateson 2, K.G. Estabrook 2, J.H. Hammer 2, D. Hewett 2, R.B. Spielman 3, and G. Zimmerman 2. 1=UC Davis; 2=Lawrence Livermore National Laboratory; 3=Sandia National Laboratory.

3T 25 Prediction of X-Ray Images From 2-D Lasnex Calculations of Z-Pinch Experiments on Saturn.
S. Maxon, J.H. Hammer, K.G. Estabrook, G.B. Zimmerman, J.A. Harte, J.S. DeGroot, Lawrence Livermore National Laboratory.

3T 26 2D Lasnex Simulations of Z-pinch Dynamics.
J.H. Hammer, S. Maxon, M. Tabak, K. Estabrook, J.L. Eddleman, C.W. Hartman, A. Toor, G.B. Zimmerman, Lawrence Livermore National Laboratory; J.S. DeGroot, UC Davis.

3T 27 Instability Heating of Solid Fiber Z-Pinches.
R.A. Riley, J.S. Schlachter, D.W. Scudder, F.J. Wysocki, R.H. Lovberg, Los Alamos National Laboratory.

3T 28 The UCI Staged Z-Pinch.
F.J. Wessel, A. Van Drie, V. Bystritskii, H.U. Rahman 1, and G. Yur 1, University of California, Irvine. 1=University of California, Riverside.

3T 29 Modeling of the UCI Staged Z-Pinch.
H.U. Rahman, F.J. Wessel 1, N. Rostoker 1, P. Ney, and F. Aitouamer, Univeristy of California, Riverside. 1=University of California, Irvine.

3T 30 Two-Dimensional Simulations of SATURN Z-Pinch Implosions.
N.F. Roderick 1, T.W. Hussey, R.E. Peterkin,Jr., U. Shumlak, Phillips Laboratory, Kirtland AFB, NM and R.B. Spielman, Sandia National Laboratories, Albuquerque. 1=University of New Mexico.

3T 31 MeV Ions Trapped in Plasma Domains Far From the Plasma Focus Pinch.
J.S. Brzosko, V. Nardi, D. Goldstein, J.R. Brzosko, Stevens Inst. Techn., Hoboken, NJ 07030.

3T 32 Strong and Weak Coupling of Fusion Reaction Yield and Current Distribution in MA-PF Discharges.
A. Bortolotti, J.S. Brzosko, D. Goldstein, C.M. Luo 1, F. Mezzetti, T. Montanari, V. Nardi, C. Powell, Stevens Institute of Technology, Hoboken, NJ 07030 (USA)- University of Ferrara, Ferrara 44100(I). 1=Tsinghua University.

3T 33 Energy Spectrum Characteristics of Ion and Ion Cluster Emission From PF Discharges.
C.M. Luo 1, V. Nardi, C. Powell, Stevens Institute of Technology, Hoboken, NJ 07030. 1=Tsinghua University (PRC).

TUESDAY AFTERNOOON

SESSION 4IA, TUESDAY AFTERNOON, 14:00

SESSION 4IA: TOROIDAL STABILITY AND CONFINEMENT, 14:00

Tuesday afternoon, 8 November 1994 Nicollet Ballroom at 14:00 A. Boozer, presiding

4IA 1 Formation and Sustainment of a Low Aspect Ratio Tokamak by Coaxial Helicity Injection.
B.A. Nelson, University of Washington, Seattle.

4IA 2 Wall Stabilization of High Beta Plasmas in DIII-D.
T.S. Taylor, General Atomics.

4IA 3 Transport Reduction by Current Profile Control in the Reversed Field Pinch.
J.S. Sarff, University of Wisconsin-Madison.

SESSION 4IB, TUESDAY AFTERNOON, 14:00

SESSION 4IB: SHORT PULSE LASER INTERACTIONS: INTENSE LASER PULSES, MODERATELY COUPLED PLASMAS.

Tuesday afternoon, 8 November 1994 Nicollet Ballroom at 14:00 P. Drake, presiding

4IB 1 Space-Time Evolution of Instabilities in Ultra-Intense Laser-Plasma Interactions.
W.B. Mori, UCLA.

4IB 2 Stimulated Processes and Self-Modulation of Short Intense Laser Pulses in LWFA.
N.E. Andreev, Russian Academy of Sciences, Russia.

4IB 3 Charged-Particle Linear-Energy-Transfer in Plasmas.
C-K. Li, Plasma Fusion Center, MIT.

SESSION 4E, TUESDAY AFTERNOON, 14:00

SESSION 4E: ORAL SESSION: HOHLRAUM PHYSICS

Tuesday afternoon, 8 November 1994 Greenway Ballroom, B-E at 14:00 M. Rosen, presiding

4E 1 National Ignition Facility Hohlraum Design.
S.M. Pollaine and S.W. Haan, Lawrence Livermore National Laboratory.

4E 2 Use of Thin Wall Imaging in the Diagnosis of Laser Heated Hohlraums.
A.R. Thiessen, L.J. Suter, F. Ze, R.L. Kauffman, R.H. Price, V.C. Rupert, V.W. Slivinsky, C. Wang, Lawrence Livermore National Laboratory.

4E 3 Soft x-ray emission spatial profiles in laser-driven hohlraums.
D. Ress, L.V. Powers, F. Ze, L.J. Suter, and R.J. Wallace, Lawrence Livermore National Laboratory, Livermore, CA 94551-5508.

4E 4 Electron temperature measurements of Nova hohlraum targets by spectroscopy.
C.A. Back, E.J. Hsieh, D.H. Kalantar, R.L. Kauffman, C.J. Keane, D.E. Klem, B.F. Lasinski, R.W.Lee, D. S.,Montgomery, B. J. MacGowan, L.V. Powers, T.D. Shepard, G.F. Stone, L.J. Suter, and R.E. Turner, Lawrence Livermore National Laboratory, University of California, L-477, P.O. 808, Livermore, CA 94551 USA.

4E 5 Tamped-Hohlraum Designs for the Study of Interface Stability.
T.D. Shepard, T.J. Orzechowski, W.K. Levedahl, Lawrence Livermore National Laboratory and J.M. Foster, P.A. Rosen, AWE, Aldermaston, UK.

4E 6 Interface Stability in Low-Z Filled Hohlraums.
T.J. Orzechowski, R. L. Kauffman, W.K. Levedahl, D.B. Ress, T.D. Shepard, Lawrence Livermore National Laboratory and J.M. Foster and P.A. Rosen, Atomic Weapons Establishment.

4E 7 Experimental Investigation of Radiation Temperature In the Cavity.
Yi Rongqing, Miao Wenyong and Zheng zhijian, Southwest Institute of Nuclear Phsyics and Chemistry, P.O. Box 525, Chengdu 610003, P.R. China.

4E 8 Design Considerations for NOVA Symmetry Experiments.
D.B. Harris, N. D. Delamater, G. Magelssen, A.A. Hauer and E.L.Lindman, Los Alamos National Laboratory.

4E 9 Symmetry experiments in gas filled hohlraums at NOVA.
N.D. Delamater, E.L. Lindman, G. Magelssen, A.A. Hauer, J.B. Moore and M.A. Salazar, Los Alamos National Laboratory.

4E 10 Time-Dependent Measurements of Radiation Symmetry within Nova Hohlraums using the Symmetry Capsule Technique.
A.A. Hauer, G.R. Magelssen, D.B. Harris, N.D. Delamater, and E.L. Lindman, Los Alamos National Laboratory, Los Alamos, New Mexico 87545.

4E 11 Time-Dependent Measurements of Radiation Symmetry within Nova Hohlraums using the Reemission Ball Technique.
G.R. Magelssen, N.D. Delamater, E.L. Lindman, and A.A. Hauer, Los Alamos National Laboratory, Los Alamos, New Mexico 87545.

SESSION 4F, TUESDAY AFTERNOON, 14:00

SESSION 4F: ORAL SESSION: ALCATOR C-MOD

Tuesday afternoon, 8 November 1994 Greenway Ballroom, F-I at 14:00 M. Murakami, presiding

4F 1 Overview of Recent Results and the Alcator C-MOD.
M. Porkolab and the Alcator Group, MIT Plasma Fusion Center.

4F 2 Impurity Screening Experiments in the Alcator C-Mod Tokamak.
G.M. McCracken, F. Bombarda, M. Graf, J.A. Goetz, R.S. Granetz, C. Kurz, D. Jablonski, B. Labombard, B. Lipschultz, E. Marmar, J. Rice, and J. Terry, MIT Plasma Fusion Center; B.L. Welch, University of Maryland.

4F 3 Analysis of ICRF Heated Plasmas in the Alcator C-Mod Tokamak.
Y. Takase, S.N. Golovato, M. Porkolab, P.T. Bonoli, M. Greenwald, J. Schachter, and the Alcator C-Mod Group, MIT Plasma Fusion Center.

4F 4 ICRF and Ohmic H-Modes in Alcator C-Mod.
J.A. Snipes, R.S. Granetz, M. Greenwald, I.H. Hutchinson, D. Garnier, S.N. Golovato, J. Irby, B. LaBombard, T. Luke, E.S. Marmar, M. Porkolab, Y. Takase, J.L. Terry, S.M. Wolfe, MIT Plasma Fusion Center.

4F 5 Ion Temperature Scaling in Ohmic and ICRF Heated Alcator C-Mod Tokamak Plasmas.
F. Bombarda, Associazione ENEA-Euratom per la Fusione, J.E. Rice, K. Giesing, C. Fiore, MIT Plasma Fusion Center.

4F 6 Neutral Gas Compression in the Alcator C-Mod Divertor.
A. Niemczewski, B. Lipschultz, B. LaBombard, G. McCracken, MIT Plasma Fusion Center.

4F 7 Tomography of Visible Light Emission From Hydrogen And Low-Z Impurities in Diverted Discharges on Alcator C-Mod.
C. Kurz, J.L. Terry, J.A. Snipes, B. Lipschultz, G.M. McCracken, MIT Plasma Fusion Center.

4F 8 Up-Down Asymmetric Neutral Particle and Impurity Density Profiles in Diverted Alcator C-Mod Discharges.
M.A. Graf, J.E. Rice, J.L. Terry, F. Bombarda 1, C. Kurz, J. Snipes, MIT Plasma Fusion Center. 1=Associazione ENEA-Euratom per la Fusione, Frascati, Italy.

4F 9 Density Fluctuations Following Pellet Injection in Alcator C-Mod.
J. Irby, T. Luke, M. Greenwald, D. Garnier, R. Granetz, A. Hubbard, E. Marmar, P. O'Shea, J. Schachter, MIT Plasma Fusion Center.

4F 10 Measurement of Core Particle Transport in Alcator C-Mod.
T. Luke, J. H. Irby, M. Greenwald, S. Horne, B. LaBombard, E. Marmar, G. McCracken, S. Wolfe, MIT Plasma Fusion Center.

4F 11 Disruptions and Halo Currents in Alcator C-Mod.
R.S. Granetz, J. Irby, B. LaBombard, J.M. Sorci, MIT Plasma Fusion Center. SESSION 4P, TUESDAY AFTERNOON, 14:00

SESSION 4P: POSTER SESSION: GENERAL TRANSPORT AND DIFFUSION

Tuesday afternoon, 8 November 1994 Hyatt Center at 14:00

4P 1 Dielectric Response Function and Stopping Power of a Two-Dimensional Electron Gas.
A. Bret and C. Deutsch, L.P.G.P. Universite de Paris XI Orsay, France.

4P 2 Model of Transport Barrier Formation During L-H Transition.
M.V. Osipenko, A.R. Polevoi, Russian Research Center-Kurchatov Institute.

4P 3 Transport Simulations Using a Statistically Calibrated Theory-Based Transport Model.
Clifford Singer, Jon Kinsey, Ji Qiang, and Glenn Bateman 1, University of Illinois-Urbana. 1=Princeton Plasma Physics Laboratory.

4P 4 Theory-Based Transport Simulations of TFTR and DIII-D Parameter Scans.
Jon Kinsey, Clifford Singer, Ji Qiang, Glenn Bateman 1, and Jan Weiland 2, University of Illinois-Urbana. 1=Princeton Plasma Physics Laboratory; 2=Chalmers University of Technology, Goteborg, Sweden.

4P 5 Adaptive HP Methods and a Posteriori Error Estimates for Simulations of Edge and Scrape-off Layer.
J.C. Wiley and David W. Ross, Fusion Research Center, The University of Texas at Austin.

4P 6 Fluid Models of Edge and Scrape-off Layer.
David W. Ross and James C. Wiley, Fusion Research Center, The University of Texas at Austin.

4P 7 Scalings of ITG Turbulence and Transport from Toroidal Gyrokinetic Simulations.
A.M. Dimits, J.A. Byers, T.J. Williams, B.I. Cohen, Lawrence Livermore National Laboratory.

4P 8 CORSICA: Progress Toward a Numerical Tokamak.
J.A. Crotinger, R.H. Cohen, S.W. Haney, L.D. Pearlstein, T.B. Kaiser, L.L. Lodestro, T.D. Rognlien, A.I. Shestakov, G.R. Smith, A.G. Tarditi, X.Q. Xu, Lawrence Livermore National Laboratory.

4P 9 Measurements of Velocity Space Transport Perpendicular to the Magnetic Field.
T. Ross, D. Newsham and N. Rynn, Department of Physics, University of California, Irvine.

4P 10 Fokker-Planck Coefficients of an Ion Beam in a Background Plasma.
D. Newsham, T. Ross and N. Rynn, Department of Physics, University of California, Irvine.

4P 11 Laser-Induced Fluorescence in a Gas-Discharge.
J.J. Curry, M. Sarfaty and F. Skiff, Institute for Plasma Research, University of Maryland, College Park MD 20742

4P 12 Ion Velocity-Space Diffusion in the Presence of Electrostatic Ion Waves.
M. Sarfaty, J.J. Curry and F. Skiff, Institute for Plasma Research, University of Maryland, College Park MD 20742.

4P 13 The Isotopic Effect; Particles and Energy.
G. Penn, Y.K. Pu, S. Migliuolo and B. Coppi, MIT.

4P 14 Comments on direct magnetic field measurement of micro-turbulence enhanced electron collisionality.
R.M. Mayo, R.A. Gerwin, and D.C. Black, Department of Nuclear Engineering, North Carolina State University.

4P 15 Trapped Ion Temperature Gradient Driven Convective Cells with Self Consistent Evolution of Electric Field Shear.
P.H. Diamond, Physics Department, University of California, San Diego, La Jolla, CA 92093- 0319; B.A. Carreras, Oak Ridge National Laboratory, Oak Ridge, TN 37830-8070.

4P 16 The breakdown of turbulent poloidal viscosity as a possible mechanism of the bifurcation in electrode-biased H-mode.
V.B. Lebedev, P.H. Diamond, Physics Department, University of California, San Diego, La Jolla, CA 92093-0319; G.R. Tynan, Physics Department, University of California, Los Angeles, Los Angeles, CA 90024.

4P 17 Turbulent pinch.
A.V. Gruzinov, P.H. Diamond, Physics Department, University of California, San Diego, La Jolla, CA 92093-0319; M.B. Isichenko, Fusion Research Center, The University of Texas at Austin, Austin, TX 78712.

4P 18 Analytical and numerical investigations of spontaneous shear flow amplification in turbulent plasmas.
G. Soloviev, Institute for Space Studies, Moscow, Russia; A.V. Gruzinov, P.H. Diamond, Physics Department, University of California, San Diego, La Jolla, CA 92093- 0319.

4P 19 A simple model of ELM dynamics in H-mode plasmas.
I. Gruzinova, L.B. Lebedev, P.H. Diamond, Physics Department, University of California, San Diego, La Jolla, CA 92093-0319.

4P 20 Nonlinear Incompresible Poloidal Viscosity and Its Implications on H-mode in Stellarator/Heliotron Plasmas.
M. Yokoyama, M. Wakatani, Plasma Physics Laboratory, Kyoto University; K.C. Shaing, Oak Ridge National Laboratory.

4P 21 Generation of toroidal plasma flow in a tokamak using externally launched fast wave.
Tom Wen, and F.Y. Gang, MIT Plasma Fusion Center, Cambridge, MA 02139.

4P 22 Simulation of sheared flow effects on neoclassical transport in toroidal plasmas.
Z. Lin, W.W. Lee and W.M. Tang, Princeton University.

4P 23 H-mode Transport and Generalization of the Self-Organized Critical Gradient Model.
T. Tajima, M.J. Lebrun, W. Horton, J.Q. Dong, Y. Kishimoto 1, H. Shirai 1, and M. Yagi 1, Institute for Fusion Studies and Department of Physics, The University of Texas at Austin, Austin, 7X 78712. 1=Japan Atomic Energy Research Institute.

4P 24 The Interaction of Drift-wave Generated Sheared Flows and Neoclassical Damping.
W. Horton, X.N. Su, P.N. Yushmanov, J.Q. Dong and W. Dorland, Institute for Fusion Studies.

4P 25 Non-ambipolar particle losses in the presence of fluctuations.
P.N. Yushmanov 1, A. I. Smolyakov 1, S.I. Krasheninnikov 2, MIT, Plasma Fusion Center, Cambridge, MA 02139. 1=Russian Scientific Center "Kurchatov Institute" Moscow, Russia; 2=University of Saskatchewan, Saskatoon, Canada.

4P 26 The Fast Time Scale Behavior of the L/H Transition.
G.M. Staebler, F.L. Hinton, J.C. Wiley 1, P.H. Diamond 2, General Atomics. 1= IFS/The University of Texas at Austin; 2=University of California, San Diego.

4P 27 Transport suppression by diamagnetic rotation as a possible mechanism of L-H transition.
M. B. Isichenko, University of Texas at Austin, and P. H. Diamond, University of California at San Diego.

4P 28 Approximate Analytic Expressions for Plasma Viscosity and Neoclassical Flows and Fluxes in Finite Aspect Ratio Tokamaks. N. Dominguez, K.C. Shaing, ORNL; M. Yokoyama, M. Wakatani, PPL, Kyoto University; and C.T. Hsu, MIT.

4P 29 Shock formation in Poloidally Rotating Helically Symmetric Plasmas.
M. Wakatani, Kyoto University, Japan; and K. C. Shaing, ORNL.

4P 30 Poloidal Flow and ExB Flow in H-Mode.
K.C. Shaing and H.T. Hsu,ORNL.

4P 31 Effects of Electric Oscillations on Plasma Rotation.
J.J. Martinell and I.A. Voitsekhovitch 1, Inst. Ciencias Nucleares, National Univ. of Mexico, 04510 Mexico D.F., Mexico. 1=Kurchatov Institute, Moscow, Russia.

4P 32 Poloidal Rotation Spinup in Divertor Tokamaks.
H.R. Strauss, New York University.

4P 33 Transport of Photons Throughout a High-Density Divertor Plasma.
D.B. Hayden and D.N. Ruzic, 103 S. Goodwin Ave., University of Illinois, Urbana, IL 61801.

4P 34 Reduction of anamalous transport via feedback.
J. Chiu, P. Tham and A.K. Sen, Columbia University.

4P 35 Effect of varying frequency of an external rf electric field on the transport of electrons in mixtures of gases.
J.M. Wadehra and A.A. Sebastian, Wayne State University.

4P 36 Driven, Energy Conserving MHD Screw Pinch Equilibria Determined By Classical Transport Processes.
M.L. Goodman, Code 695,NASA Goddard, Greenbelt, MD 20771.

4P 37 Slow Time Evolution of Long Mean Free Path Tokamak Approximate Steady States.
H. Weitzner, New York University.

4P 38 Impurity motion and disruption in Tokamaks.
J.J.E. Herrera and D.Kh. Morozov 1, Instituto de Ciencias Nucleares, UNAM, Mexico. 1=Kurchatov Institute, Moscow, Russia.

4P 39 Momentum and Energy Transport by Fast Ions.
Y.-B. Kim, R.W. Harvey, F.L. Hinton, T.S. Taylor, General Atomics.

SESSION 4Q, TUESDAY AFTERNOON, 14:00<title> <h1>SESSION 4Q: POSTER SESSION: ION BEAMS, ELECTRON BEAMS, AND HEAVY ION FUSION</h1> Tuesday afternoon, 8 November 1994 Hyatt Center at 14:00 4Q 1 Extraction Ion Diode Studies of Parasitic Load with Active EMFAPS and Passive Anodes. J.B. Greenly, R. Appartaim and J.C. Olson, Laboratory of Plasma Studies, Cornell University, Ithaca, NY 14853. 4Q 2 Spectroscopic Observations of Neutrals and Ions in an Applied-$B_r$ Extraction Diode. R. Appartaim, J. Greenly and J. Olson, Laboratory of Plasma Studies, Cornell University, Ithaca, NY 14853. 4Q 3 Characterization of an Applied-B Diode With an Active Anode Plasma Source on Gamble II. J.M. Neri, W. Noonan, S.J. Stephanakis, F C. Young Plasma Physics Division, Naval Research Laboratory; D.D. Hinshelwood, Jaycor, Inc.; J.G. Greenly, Cornell U. 4Q 4 Improvement of carbon beam divergence by two-stage magnetically insulated ion diode. Shuji Miyamoto, K.Yasuike, T. Yamasita, T. Ochi, K. Imasaki, C.Yamanaka, K.Nishihara and S.Nakai, Institute of Laser Engineering, Osaka University, Suita, Osaka 565, Japan. 4Q 5 Characteristics of a Long-Pulse, Low Voltage, Ion Diode. R.R. Bartsch, H.A. Davis, Los Alamos National Laboratory, Los Alamos, NM 87545 and C.L. Ruiz, Sandia National Laboratories, Albuquerque, NM 87185. 4Q 6 Measurement of the Voltage on a Pinch-Reflex Diode Using a Magnetic Spectrometer. W A. Noonan 1, S.J. Stephanakis and F C. Young, Naval Research Laboratory, Washington, D.C. 1=NRC Research Associate. 4Q 7 Convective instability of expanding ion beams. J. Orloff and D.L. Book, University of Maryland, College Park, MD 20742. 4Q 8 Pulsed Electron Beams for Material Science Research. E. Garate, A. Fisher 1, R. Prohaska, O. Gornostaeva, Physics Department, University of California, Irvine, and E.J. Lavernia, A. Sharif and D.E. Lawrynowicz, Materials Science and Engineering Department, University of California, Irvine. 1=Plasma Physics Branch, Naval Research Laboratory. 4Q 9 Plasma Source for Current Injection into Magnetized Plasmas. G. Fiksel, A. Almagri, C.-S. Chiang, D.J. Craig, S.C. Prager, and J.S. Sarff, University of Wisconsin-Madison. 4Q 10 Multibunch X-Band Photoinjector. G.P. Le Sage, F.V. Hartemann, S.N. Fochs and N.C. Luhmann, Jr., DAS, UC Davis; J.P. Heritage, ECE, UC Davis; M.D. Perry and G.A. Westenskow, LLNL. 4Q 11 GigaHertz Repetition Rate AlGaAs/Ti:Sapphire MOPA Laser System for Advanced Photoinjectors. S.N. Fochs, F.V. Hartemann, G.P. Le Sage and N.C. Luhmann, Jr., DAS, UC Davis; J.P. Heritage, ECE, UC Davis; M.D. Perry and G.A. Westenskow, LLNL. 4Q 12 Diamond-Like-Carbon Thin Film Cold Field Emission Electron Cathode for Long Pulse, High-Power Microwave Applications. B.H. Fishbinet 1, K.J. Hendricks, C.J. Miglionico, Phillips Laboratory, Kirtland AFB NM, and N. Kumar and R. Fink, Microelectronics and Computer Technology Corporation, Austin, TX. 1=NRC Research Associate. 4Q 13 Transmitted Current in a Crossed-Field Diode. J.P. Verboncoeur and C.K. Birdsall, Electronics Research Laboratory, University of California, Berkeley, CA 94720. 4Q 14 Formation and Transport of Sheet Electron Beams and Multi-Beam Configurations. M.A. Basten, J. Joe, J. Anderson, J.H. Booske, J.E. Scharer, University of Wisconsin-Madison; R. True, Litton Electron Devices. 4Q 15 Stabilization of High Current, Relativistic Electron Beams Using Active-Wire $B_\theta$ Cell Techniques. D.P. Murphy, R.F. Fernsler, M.C. Myers, D.J. Weidman 1, and R.A. Meger, Naval Research Laboratory, Washington, DC 20375-5320. 1=Institute for Plasma Research, University of Maryland, College Park, MD 20742 4Q 16 Intense relativistic electron beam expansion in air due to gas scattering and hose Instability. D.J. Weidman 1, D.P. Murphy, M.C. Myers, and R.A. Meger, Plasma Physics Division, Naval Research Laboratory, Washington, DC 20375. 1=Inst. for Plasma Research & EE Dept., U of MD, College Park. 4Q 17 Studies of Waves and Instabilities in Space-Charge Dominated Beams. J.G. Wang, M. Reiser, and H. Suk, Institute for Plasma Research, University of Maryland. 4Q 18 Non-linear evolution of cavity modes in a coasting beam system. Peter H. Stoltz, John R. Cary, University of Colorado, Boulder, CO 80309-0391. 4Q 19 Linear and Nonlinear Evolution of Intense Beam Envelopes. Qian Qian and Ronald C. Davidson, Princeton Plasma Physics Laboratory. 4Q 20 Focusing of a Relativistic Electron Beam by an Underdense Plasma Lens. P. Davis, G. Hairapetian, C. Clayton, C. Joshi, C. Pellegrini. UCLA. 4Q 21 Theoretical Analysis of the Experimental Observations on the Suppression of Longitudinal Microwave Instability. C.K. Choi and T. Majeed, Purdue University. 4Q 22 Three dimensional field structure of permanent magnet quadrupoles. Steven M. Lund and John J. Barnard, Lawrence Livermore National Laboratory. 4Q 23 A trochoidal monochromator to measure, electron beam distribution function. D. Guyomarc'h, J.M. Layet and F. Doveil, Turbulence Plasma, I.M.T., 13451 Marseille, France. 4Q 24 Transverse Combining of 4 Beams in MBE-4. C.M. Celata, W. Chupp, A. Faltens, W.M. Fawley, K. Hahn, E. Henestroza, C. Peters, P.A. Seidl, Lawrence Berkeley Lab. 4Q 25 A 2 MV Injector for Heavy Ion Fusion. S. Yu, S. Eylon, E. Henestroza, R. Hipple, C. Peters, L. Reginato, J. Stoker, D. Vanacek, F. Deadrick 1, Lawrence Berkeley Laboratory. 1=Lawrence Livermore National Laboratory. 4Q 26 Current and Emittance Measurements from a 2 MV Heavy Ion Injector. S. Eylon, E. Henestroza, R. Hipple, J. Kwan, C. Peters, L. Reginato, J. Stoker, D. Vanacek, S. Yu, F. Deadrick 1, Lawrence Berkeley Laboratory. 1=Lawrence Livermore National Laboratory. 4Q 27 Simulation of Experimental Results from a 2 MV Injector for Heavy Ion Fusion. E. Henestroza, S .Eylon, S. Yu, Lawrence Berkeley Laboratory. 4Q 28 Design and Test of Transport System Heavy-Ion-Induced Plasmas Experiments at RFQ Linac. T. Hattori, K. Sasa, Y. Oguri, H. Tomisawa, M. Okamura, M. Okada, T. Nakamura, T. Itoh and M.Katayose, RLNR, Tokyo Institute of Technology. 4Q 29 An Affordable Development Path to an Inertial Fusion Energy DEMO by 2025. B. Grant Logan, LLNL; Roger Bangerter, LBL. 4Q 30 Design of a Recirculating Heavy Ion Accelerator Experiment. M.D. Cable 1, J.J. Barnard 1, D.A. Callahan 1, F.J. Deadrick 1, T.J. Fessenden 2, A. Friedman 1, D.P. Grote 1, D.L. Judd 2, S.A. Hawkins 1, H.C. Kirbie 1, D. Longinotti 3, S.M. Lund 1, M. Nelson 1, M.A. Newton 1, C.W. Ollis 1, W.M. Sharp 1, S.S. Yu 2. 1=Lawrence Livermore National Laboratory; 2=Lawrence Berkeley Laboratory; 3=EG&G. 4Q 31 Modeling a Small Recirculating Induction Accelerator for Heavy-Ion Fusion. W.M. Sharp, J.J. Barnard, A. Friedman, D.P. Grote, S.M. Lund, and M. A. Newton, Lawrence Livermore National Laboratory; T.J. Fessenden and S.S. Yu, Lawrence Berkeley Laboratory. 4Q 32 Simulation of electrostatic matching sections and beam combiners. D.P. Grote, S.M. Lund, E. Henestroza 1, I. Haber 2, and A. Friedman, Lawrence Livermore National Laboratory. 1=Lawrence Berkeley Laboratory; 2=Naval Research Laboratory. 4Q 33 Propagation of Heavy-Ion ICF Driver Beams in Vapor-Filled Reactor Chamber. A. Bruce Langdon and Debra C. Miller, Lawrence Livermore National Laboratory, Livermore, CA 94550. 4Q 34 High brightness ion and atomic beams formation. V.I. Davydenko, Budker Institute of Nuclear Physics, 630090, Novosibirsk, Russia. <title>SESSION 4R, TUESDAY AFTERNOON, 14:00

SESSION 4R: POSTER SESSION: WAVE HEATING AND CURRENT DRIVE

Tuesday afternoon, 8 November 1994 Hyatt Center at 14:00

4R 1 Ponderomotive Forces Generated about Alfven Resonance Layers.
V. Petrzilka, Institute of Plasma Physics, Prague; J.A. Tataronis, University of Wisconsin-Madison, WI, USA; and R.L. Dewar, Australian National University, Canberra, Australia.

4R 2 Low Frequency Current Drive in an Bounded Plasma.
S. Rauf and J.A. Tataronis, University of Wisconsin-Madison.

4R 3 Is there an Alfven 'Resonance'? - Exact Equations for Waves Propagating Across a Cold Inhomogeneous Plasma.
P.M. Bellan, Caltech.

4R 4 Alpha heating by ICRF and current drive in Fusion Plasmas.
N.T. Lam, J.E. Scharer, R.S. Sund, University of Wisconsin-Madison.

4R 5 Alpha Current Driven by ICRH from a Fast Wave in a DT Tokamak Reactor.
C.-S. Chang, Courant Institute, New York University.

4R 6 A 3-D Fokker-Planck Solver for the Current Drive Problem.
I.P. Shkarofsky 1, M.M. Shoucri, and G.V. Pereverzev 2, Centre canadien de fusion magneitque, Varennes, Quebec, Canada J3X 1S1. 1=MPB Technologies, Inc., Pointe-Claire, Quebec, H9R 1E9; 2=Max-Planck Institut fur Plasmaphysik, Garching, Germany

4R 7 Effect of RF Waves on Bootstrap Current in Tokamaks.
S.D. Schultz, A. Bers, and A.K. Ram, Plasma Fusion Center, M.I.T.

4R 8 A Direct Calculation of the Efficiency of Fast Wave Current Drive.
J. Wright and P. Bonoli, MIT Plasma Fusion Center.

4R 9 Fast Wave Absorption and Current Drive by Energetic Ions in DIII-D.
S.C. Chiu, R.W. Harvey, T. K. Mau 1, J.S. deGrassie, R. I. Pinsker, C.C. Petty, C.S. Chang 2, General Atomics. 1=University of California, San Diego; 2=Courant Institute of Mathematical Sciences.

4R 10 Modelling of Fast-Wave Current Drive Scenarios Including Kinetic Ion Effects.
T.K. Mau, University of California, San Diego; S. C. Chiu, R. W. Harvey General Atomics.

4R 11 A General Ray-Tracing Code (GENRAY).
A.P. Smirnov, R.W. Harvey 1, K. Kupfer 2, Moscow University. 1=General Atomics; 2=ORISE Postdoctoral Fellow.

4R 12 Interaction of Ion-Bernstein Waves With Electrons.
A.K. Ram, A. Bers, S.D. Schultz, Plasma Fusion Center, M.I.T.; V. Fuchs, CCFM, Quebec, Canada.

4R 13 Parallel Forces Induced in Ion Cyclotron Range of Frequency.
C.Y. Wang, D.B. Batchelor, and E.F. Jaeger, ORNL.

4R 14 Plasma Biasing by Ponderomotive Forces of Radio Frequency Waves.
R. van Nieuwenhove, Ecole Royale Militaire, Brussels, Belgium; V. Petrzilka, Institute of Plasma Physics, Prague; and J.A. Tataronis, University of Wisconsin, Madison, WI, USA.

4R 15 Mode Conversion of the Fast Alfven Wave in a Tokamak at the Ion-Ion Hybrid Frequency.
V. Fuchs, CCFM, Varennes, Quebec, J3X 1S1; S. Schultz, A. Ram, a. Bers, PFC, MIT, Cambridge, MA 02139, USA; and C.N. Lashmore-Davies, UKAEA, Abingdon, UK.

4R 16 Enhanced Electron Dissipation in the Ion Cyclotron Range of Frequencies by a Mode Converted Ion Hybrid Wave.
C.N. Lashmore- Davies, UKAEA Government Division, Fusion, Culham. Abingdon, Oxon, OX14 3DB, UK (Euratom/UKAEA Fusion Association); V. Fuchs, Centre Canadian de Fusion Magnetique, Varennes, Quebec, Canada.

4R 17 Effect of ICRF Impurities during Mode Conversion Current Drive Experiments in TFTR.
D.A. D'Ippolito, J.R. Myra, Lodestar Research Corp., Boulder, CO; R. Majeski, J.R. Wilson, PPPL, Y.L. Ho, SAIC.

4R 18 Development of ICRF Heating for PISCES-Upgrade.
D.A. Rothweil, E.E. Bowles, J.W. Cuthbertson 1, R. Doerner 1, R. Lehmer 1, A. Nerem, C. C. Petty, D.A. Phelps, R.D. Phelps, R.I. Pinsker, L. Schmitz 1, General Atomics. 1=University of California, San Diego.

4R 19 Ion Cyclotron Heating in the Compact Helical System (CHS).
D.A. Rasmussen, R. Kumazawa 1, K. Nishimura 1, S. Masuda 1, T. Mutoh 1, F. Shimbo 1, T. Seki 1, T. Watari 1, R. Akiyama 1, A. Ando 1, A. Ejiri 1, H. Idei 1, K. Ida 1, H. Iguchi 1, S. Kubo 1, K. Matsuoka 1, T. Morisaki 1, S. Morita 1, S. Okamura 1, T. Ozaki 1, S. Sakakibara 1, C. Takahashi 1, T. Kawamoto 1, K. Tanaka 1, J. Xu 1, H. Yamada 1, I. Yamada 1, M. Murakami, D.J. Hoffman, E.F. Jaeger, ORNL.

4R 20 Measurement of the Toroidal Wavenumber of Fast Waves with Current Drive Phasing.
H. Ikezi, R.I. Pinsker, S.C. Chiu, J.S. deGrassie, General Atomics.

4R 21 The Effects of RF Sheaths on the Erosion of Faraday Shield Coatings.
J.B.O. Caughman, G.L. Bell, W.L. Gardner, D.J. Hoffman, ORNL.

4R 22 Sheath activity at Faraday Screens during ICH.
S. Riyopoulos and W. Grossmann, SAIC.

4R 23 3D ICRF Antenna Modeling using ARGUS and Example Analysis of the Proposed ITER Antenna.
Y.L. Ho, W. Grossmann, W. Krueger, SAIC- McLean, VA; M.D. Carter, P.M. Ryan, D.B. Batchelor, ORNL, Oakridge, TN, J.R. Myra, D.A. D'Ippolito, Lodestar Research, Boulder, CO.

4R 24 Faraday Shield Effects on ICRF Antenna Coupling in Tokamaks.
Mike Bettenhausen and J.E. Scharer, University of Wisconsin-Madison.

4R 25 Determination of the Plasma Surface Impedance for Low Frequency Current Drive.
D.C. Stallings, D.B. Batchelor, C.Y. Wang and M.D. Carter, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831- 8058.

4R 26 Edge Power Dissipation and Cavity Q for ICRF Eigenmodes.
J.R. Myra and D.A. D'Ippolito, Lodestar Research Corp., Boulder, CO.

4R 27 Power Deposition and Driven Current Profiles in Lower Hybrid Current Drive Experiments on JET.
Y.F. Baranov, A. Ekedahl, P. Froissard, C. Gormezano, M. Lennholm, F. Rimini, F.X. Soldner, JET Joint Undertaking, Abingdon, Oxon U.K. OX14 3EA.

4R 28 LHCD Simulation for TdeV Experiments Using the TSC/LSC Code.
M.M. Shoucri, I.P. Shkarofsky 1, D. Ignat 2, S. Jardin 2, R. Harvey 3, Y. Demers 1, A. Cote, D. Michaud 1, C. Cote, and G. Abel, Centre canadien de fusion magnetique, Varennes, Quebec, Canada, J3X1S1. 1=Also at MPB Technologies Inc., Pointe-Claire, Quebec, H9R1E9; 2=Princeton Plasma Physics Lab., Princeton, N.J., 08543; 3=General Atomics, San Diego, CA 92186-9784.

4R 29 Pondermotive Effects in the Edge Plasma in the Waveguide Launch of Slow Lower Hybrid Waves.
J. Preinhaelter, Institute of Plasma Physics, Czech Rep.; L. Vahala, Old Dominion University; G. Vahala, William & Mary.

4R 30 The Influence of the Fast Electron Confinement on the Slowing Down of LHW.
I.A. Voitsekhovitch 1, and J.J. Martinell, Inst. Ciencias Nucleares, National Univ. of Mexico, 04510 Mexico D.F., Mexico. 1=Kurchatov Institute, Moscow, Russia.

4R 31 ECRH Simulations on the FTU Tokamak.
A. Airoldi, IFP, CNR, Associazione EURATOM-ENEA-CNR, Milano, Italy; G. Cenacchi, CRE, ENEA, Bologna, Italy.

4R 32 Power Dependence of Electron Cyclotron Resonance Current Drive Efficiency for Real T-10 Conditions.
A. Yu. Kuyanov, A.A. Skovoroda 1, V. Stefan, and A.V. Timofeev 1, Tesla Laboratories, Inc., La Jolla, CA; and A.V. Zvonkov, Kurchatov Institute, Moscow, Russia. 1=Kurchatov Institute, Moscow, Russia.

4R 33 Temperature Dependence of Electron Cyclotron Heating and Current Drive: Present Experiments to ITER.
R.W. Harvey, W.M. Nevins 1, G.R. Smith 1, C.B. Forest, General Atomics. 1=Lawrence Livermore National Laboratory.

4R 34 Electron Cyclotron Current Drive Consistent with Tokamak Transport.
G. Ramponi, E. Lazzaro, S. Nowak, IFP-CNR, Assoc. EURATOM-ENEA-CNR, Milano, Italy; A. Figueiredo, CFN-IST, Lisboa, Portugal.

SESSION 4S, TUESDAY AFTERNOON, 14:00<title> <h1>SESSION 4S:POSTER SEESSION: PHAEDRUS T, HBT-EP, AND OTHER TOKAMAKS</h1> Tuesday afternoon, 8 November 1994 Hyatt Center at 14:00 4S 1 The Phaedrus Path to Alfven Wave Current Drive. N. Hershkowitz and the PHAEDRUS-T GROUP, Universitv of Wisconsin-Madison. 4S 2 Experimental Evidence of Alfven Wave Current Drive in Phaedrus-T. S. Wukitch, D. Diebold, N. Hershkowitz, T. Intrator, M. Kishinevsky, P. Probert, M. Vukovic, University of Wisconsin-Madison. 4S 3 Analysis of Alfven wave current drive experiments in Phaedrus-T. M. Vukovic, D. Brouchous, D. Diebold, R. Durst, D. Edgell, N. Hershkowitz, T. Intrator, C. Litwin, P. Probert, S. Wukitch, University of Wisconsin-Madison. 4S 4 Current diffusion and time response of loop voltage during AWCD experiments in Phaedrus-T. C. Litwin, N. Hershkowitz, T. Intrator and S. Wukitch, University of Wisconsin-Madison. 4S 5 Progress in full-wave modeling of RF plasma heating and current drive in tokamaks. P.E. Moroz, University of Wisconsin-Madison. 4S 6 Stacked Stripline Antenna Operation In Phaedrus-T. P.H. Probert, The University of Wisconsin-Madison. 4S 7 Edge Particle Transport for Ohmic and H-mode Plasmas with Applied RF in Phaedrus-T. X. Wang, D.A. Diebold, E.Y. Wang, S. Regan, T. Intrator, and N. Hershkowitz, University of Wisconsin-Madison. 4S 8 Impurity Transport During Biased H-mode Experiments in Hydrogen and Deuterium Plasmas on the Phaedrus-T Tokamak. S.P. Regan, M. Finkenthal 1, M.J. May, and H.W. Moos, The Johns Hopkins University; D.A. Diebold, N. Hershkowitz, E.Y. Wang, X. Wang, D.A. Brouchous, M. Doczy, D. Edgell, G. Kant, M. Kishinevsky, J.A. Meyer, P. Nonn, P. Probert, S. Wukitch, and G. R. Winz, The Phaedrus-T Group, University of Wisconsin. 1=Racah Institute of Physics, Hebrew University, Jerusalem, Israel. 4S 9 RF induced density fluctuations and Density Profile Measurements by Reflectometry in Phaedrus-T. R. Breun, M. Harper, B. Cui, University of Wisconsin-Madison. 4S 10 Visible Bremsstrahlung Diagnostic on the Phaedrus-T Tokamaka. D. Brouchous, D. Edgell, D. Diebold, University of Wisconsin-Madison. 4S 11 Current Density Profiles in the Phaedrus-T Tokamak. D.H. Edgell, N. Hershkowitz, D. Brouchous, B. Breun, D. Diebold, University of Wisconsin-Madison. 4S 12 Fast pulse spectral calibration of MCP-based Thomson Scattering on Phaedrus-T. M. Kishinevsky, and S. Wukitch, University of Wisconsin- Madison. 4S 13 Boronization effects on Phaedrus-T rf operation. M. Doczy, D. Brouchous, D. Diebold, T. Intrator, and N. Hershkowitz, University of Wisconsin-Madison. 4S 14 Consideration of "Lithiumization" in the Phaedrus-T Tokamak. D.A. Diebold, D.A. Brouchous, P. Nonn, and R. Winz, University of Wisconsin-Madison. 4S 15 HBT-EP Experimental Program. G.A. Navratil, E. Eisner, A. Garofalo, D. Gates, T.H. Ivers, R. Kombargi, M.E. Mauel, D. Maurer, D. Nadle, M.K. Vijaya Sankar, and Qingjun Xiao, Columbia University. 4S 16 Measurements of Mode Locking to Quasi-Static and Oscillating Resonant Magnetic Perturbations in HBT-EP. T.H. Ivers, E. Eisner, A. Garofalo, R. Kombargi, M.E. Mauel, D. Maurer, D. Nadle, G.A. Navratil, M.K.V. Sankar and Qingjun Xiao, Columbia University. 4S 17 Analysis of m = 2 fluctuations in the HBT-EP tokamak. M.K. Vijaya Sankar, E. Eisner, A. Garofalo, T.H. Ivers, R. Kombargi, M.E. Mauel, D. Maurer, D. Nadle, G. A. Navratil and Qingjun Xiao, Columbia University. 4S 18 Conducting Wall Effects On Disruptions. R. Kombargi, E. Eisner, A. Garofalo, T.H. Ivers, M.E. Mauel, D. Maurer, D. Nadle, G.A. Navratil, M.K.V. Sankar, and Q. Xiao, Columbia University. 4S 19 Tomographic Diagnostic System On HBT-EP Tokamak. Qingjun Xiao, E. Eisner, A. Garofalo, T.H. Ivers, R. Kombargi, M.E. Mauel, D. Maurer, D. Nadle, G.A. Navratil, and M.K.V. Sankar, Columbia University. 4S 20 Calculation of Improved Ideal MHD Stability Due to a Partial Conducting Wall in Hbt-Ep. A. Garofalo, D. Nadle, E. Eisner, T.H. Ivers, R. Kombargi, M.E. Mauel, D. Maurer, G.A. Navratil, M.K.V. Sankar and Qingjun Xiao, Columbia University. 4S 21 Fast Calculation of Equilibrium Parameters for HBT-EP. E. Eisner, A. Garofalo, T.H. Ivers, R. Kombargi, M.E. Mauel, D. Maurer, D. Nadle, G.A. Navratil, M.K.V. Sankar, and Qingjun Xiao, Columbia University. 4S 22 Effects of Conducting Shells on the Poloidal Distribution of $D_\alpha$ Radiation in HBT-EP. L. Loewenthal, T.H. Ivers, G.A. Navratil, M.E. Mauel and Q. Xiao, Columbia University. 4S 23 The Low-Curvature Tokamak Program at UCLA. P.A. Pribyl, R.J. Taylor, G.R. Tynan and the IPFR, UCLA. 4S 24 Classical Explanation of Toroidal Confinement Laws. R.J.Taylor, P. Pribyl, G.R. Tynan, B.C. Wells, UCLA. 4S 25 Ohmic and H-mode Edge Transport Physics in CCT. G.R. Tynan, P. Pribyl, R.J. Taylor, B.C. Wells, Tokamak Fusion Laboratory, IPFR- UCLA. 4S 26 Poloidal Measurements of Plasma Flows and Particle Transport in CCT. B.C. Wells, P. Pribyl, R.J. Taylor, G.R. Tynan, UCLA. 4S 27 Experimental status of the Davis Diverted Torus(DDT). David Q. Hwang, Robert D. Horton, Harry S. McLean 1, J.H. Rogers 2, E. Valeo 2, J.C. Thomas 3, R. Evans, and T. Hillyer, Department of Applied Science, U.C. Davis/Livermore, Livermore, CA 94550. 1=LLNL; 2=PPPL; 3=PSI Inc, San Leandro, CA. 4S 28 Upgrade of the Caltech m=1 tokamak. J. Speth, M. Su, P.M. Bellan, Caltech and D. Smith, Amherst College. 4S 29 Limiter Biasing Experiments on the STOR-M Tokamak. W. Zhang 1, C. Xiao, L. Zhang, A. Hirose, Univ. of Sask. 1=CCFM, Varennes, Canada. 4S 30 Poloidal Magnetic Field and Scrape-off Current During Startup and Disruptive Phases in the HT-2 tokamak. M. Abe, A. Doi, T. Tadokoro, M. Otsuka, Energy Research Laboratory, Hitachi, Ltd., Hitachi, Ibaraki, Japan. 4S 31 Design for a Multi-Tokamak Disruption Database. Rebecca W. Caress, North Carolina State University; Cris W. Barnes, and Glen A. Wurden, Los Alamos National Laboratory. <h1>TUESDAY EVENING</h1> <title>SESSION 4IH, TUESDAY EVENING, 16:30

SESSION 4IH: HUMAN RIGHTS

Tuesday evening, 8 November 1994 Skyway Suite at 16:30 J. Finn, presiding

SESSION 4IF, TUESDAY EVENING, 20:00

SESSION 4IF: U.S. INDIRECT DRIVE ICF PROGRAM (NOW PG-13)

Tuesday evening, 8 November 1994 Nicollet Ballroom at 20:00 R. McCrory, presiding

4I 1 Design and Modeling of Ignition Targets for the National Ignition Facility.
S.W. Haan, Lawrence Livermore National Laboratory.

4I 2 The Role of Symmetry in Indirect Drive Laser Fusion.
A. Hauer, Los Alamos National Laboratory.

4I 3 Indirectly Driven Implosion Experiments at Nova.
M. Cable, Lawrence Livermore National Laboratory.

4I 4 Ion Driven ICF for High Gain and Energy Applications.
M.K. Matzen, Sandia National Laboratories.