Program overview

TUESDAY EVENING, 26 AUGUST 1997

L.01 Spectral Reduction for Two-Dimensional Turbulence

John C. Bowman (Max-Planck-Institut für Plasmaphysik), B. A. Shadwick (U of California at Berkeley), P. J. Morrison (U of Texas at Austin)

L.02 Cubic-spline technique for solving the compressible Navier-Stokes equations for turbulent convection

Victor M. Castillo, William G. Hoover (Department of Applied Science, University of California at Davis\backslashLivermore and Lawrence Livermore National Laboratory)

L.03 A Large Eddy Simulation of Rayleigh-Taylor Instability with ALE

Rebecca Darlington (Dept. of Applied Science, UCDavis), Tom Mcabee (Lawrence Livermore Nat Lab), Garry Rodrigue (Dept. of Applied Science, UCDavis)

L.04 The Motion of the Vortex-Current Filaments.

Yuichi Yatsuyanagi, Tomokazu Kato (School of Sci. and Eng., Waseda Univ., Tokyo), Tadatsugu Hatori (National Institute for Fusion Science, Gifu)

L.05 Macroscopic Surface Tension in a Lattice Boltzmann BGK Model of Two Immiscible Fluids.

S.P. Thompson, I. Halliday, C.M. Care (Materials Research Institute, Sheffield Hallam University)

L.06 Lattice Boltzmann Simulation of Fluid Flow For Industrial Applications.

D.M. White, I. Halliday, C.M. Care (Materials Research Institute, Sheffield Hallam University), A. Stevens (Rolls Royce amp; Associates Ltd)

L.07 A Computational Environment for Marine Seismic Tomography

Christopher Harrop, Robert Dunn, Janice Cuny, Allen Malony, Douglas Toomey (Computational Science Institute, University of Oregon)

L.08 Parallel Computatinal Technology for Atmospheric Turbulence Modeling

Randy X. Bian (Pacific Northwest National Laboratory P. O. Box 999, K9-30 Richland, WA 99352, USA (509)372-6141 (office) (509)372-6168 (fax) Email: x_bian@pnl.gov)

L.09 An Advanced Complex Terrain Atmospheric Dispersion Model for Regional Air Quality Applications

Randy X. Bian (Pacific Northwest National Laboratory P. O. Box 999, K9-30 Richland, WA 99352, USA (509)372-6141 (office) (509)372-6168 (fax) Email: x_bian@pnl.gov), C. J. Fosmire (Pacific Northwest National Laboratory)

L.10 Application of Multi-Quadric Interpolation Method to Meteorological Mapping in Pacific Northwest Region

Randy X. Bian (Pacific Northwest National Laboratory P. O. Box 999, K9-30 Richland, WA 99352, USA (509)372-6141 (office) (509)372-6168 (fax) Email: x_bian@pnl.gov), L. Ruby Leung, Edward J. Rykiel (Pacific Northwest National Laboratory)

L.11 Hybrid simulation of neutral gas interacting with a plasma

C. F. F. Karney, D. P. Stotler (Princeton Univ.), B. J. Braams (NYU)

L.12 ITG Driven Mode Near Threshold

A.Yu. Pankin, T.A. Davydova (Institute for Nuclear Research, pr. Nauki 47, Kiev 22, Ukraine)

L.13 Modelling of low-pressure gas discharges using electron clouds

M. Dedeke (Lighting Technology Institute, University of Karlsruhe, Germany)

L.14 Diffusion in Self-Consistent Beam Dynamics

Renato Pakter, C. Chen (MIT Plasma Science and Fusion Center)

L.15

L.16 End-to-End Modeling of a Heavy-Ion Fusion Acceler- ator

William M. Fawley, J-L. Vay (Lawrence Berkeley National Laboratory), D. P. Grote (Lawrence Livermore National Laboratory)

L.17 Simulation of Ion/Electron Beams in Electrostatic and Magnetostatic Fields with Embedded Curved Boundaries as Applied to Accelerators and Beam Injectors

L.S. Tung, D.W. Hewett, S. Sampayan (Center for Computational Physics, LLNL)

L.18 3-D Parallel, Object-Oriented, Hybrid, PIC Code for Ion Ring Studies

Y.~A. Omelchenko (Cornell University)

L.19 Parallel Simulation of Self-focusing of a Laser Pulse from Nonlinear Polarization

J. K. Koga (Kansai Research Establishment, Japan Atomic Energy Research Institute)

L.20 Parallelization of an Edge Plasma Transport Code via Domain Decomposition.

T.D. Rognlien, X. Xu, P.N. Brown, A.C. Hindmarsh, A.G. Taylor (Lawrence Livermore National Lab)

L.21 A Nonlinear 3D MHD Code NFTC for Numerical Simulations of Plasma Instabilities in Tokamaks

Y.Q. Liu, A.M. Popov, N.N. Popova, A.V. Pedorenko (Moscow State University)

L.22 Numerical Simulation and Spectral Analysis of Intense Laser-Plasma Interactions

A. Charman, B.A. Shadwick (Department of Physics, U.C. Berkeley), J.S. Wurtele (Department of Physics, U.C. Berkeley and Lawrence Berkeley National Laboratory)

L.23 Stability limits of spiral defects under restraint conditions

Shin-ya Mizokami, Hirotada Ohashi (University of Tokyo)

L.24 How Close Can One Approach a Sine-Gordon Homoclinic Orbit?

G.W. Wei, D.S. Zhang, D.J. Kouri (Department of Chemistry and Department of Physics, University of Houston, Houston, TX 77204-5641), D.K. Hoffman (Department of Chemistry and Ames Laboratory, Iowa State University, Ames, IA 50011)

L.25 Chaos and Energy Redistribution in the Spatio-Temporal Dynamics of Two Nonlinearly Coupled Wave Triplets

Felipe Rizzato (Instituto de Física, Universidade Federal do Rio Grande do Sul, Porto Alegre, Brazil), Sérgio Lopes (Departamento de Física, Universidade Federal do Paraná, Paraná, Brazil)

L.26 Simulation of Flame Patterns on a Circular Burner Using the K-S Equation

D.S. Zhang, G.W. Wei, D.J. Kouri (Department of Chemistry and Department of Physics, University of Houston, Houston, TX 77204), D.K. Hoffman (Department of Chemistry and Ames Laboratory, Iowa State University, Ames, IA 50011), G.H. Gunaratne, A. Palacios, M. Gorman (Department of Physics, University of Houston, Houston, TX 77204)

L.27 Liquid Crystals Displays: A Monte Carlo Study

C. Chiccoli, P. Pasini (INFN - Bologna, Italy), S. Guzzetti, C. Zannoni (Bologna University, Italy)

L.28 Monte Carlo Simulation of Spin density wave and ferromagnetism in a quasi-one-dimensional organic polymer

Hongxing Tang, Shidong Liang, Qianghua Wang, Z.D. Wang (The University of Hong Kong)

L.29 Radiation Background Study for Beam Monitoring Detector of Hall C Beam Line at Jefferson Lab

Shelton Beedoe, Samuel Danagoulian, Reyad Sawafta (North Carolina Aamp;T State University), Roger Carlini, Chen Yan (Thomas Jefferson National Accelerator Facility)

L.30 Electrophoretic Deposition of Polymer Chains.

Grace M. Foo (National University of Singapore, Singapore 119260), R. B. Pandey (University of Southern Mississippi, Hattiesburg, MS 39406-5046)

L.31 Electrophoretic Flow of Polymer Chains Through a Porous Medium.

Grace M. Foo (National University of Singapore, Singapore 119260), R. B. Pandey (University of Southern Mississippi, Hattiesburg, MS 39406-5046)

L.32 Rotation Model of Diffusion Mobility of Macromolecules Flexible-Chain Crystalline Polymer

Ulmas Gafurov, Victor Presman (Institute of Nuclear Physics, Tashkent, Uzbekistan)

L.33 Molecular Models of Slippage for Strained Passage Nacromolecules in Oriented Crystalline Polymer

Ulmas Gafurov (Institute of Nuclear Physics, Tashkent, Uzbekistan)

L.34 Computer Simulation of Tension and Slippage of Passage Macromolecules in Crystalline Regions of the Oriented Linear Polyethylene

Ulmas Gafurov, Elena Pestrikova (Institute of Nuclear Physics, Tashkent, Uzbekistan)

L.35 Motion of a Coarse-Grained Polymer Chain in a Porous Medium: Effect of Porosity and External Field.

V. I. Yamakov (Institute for Physical Chemistry, 1113 Sofia, Bulgaria), G. M. Foo (National University of Singapore, Singapore 119260), D. Stauffer (Cologne University, Germany), A. Milchev (University of Georgia, Athens, GA), R. B. Pandey (University of Southern Mississippi, Hattiesburg, MS 39406-5046)

L.36 Impact Fragmentation of Brittle Materials

Y. Hayakawa (Tohoku University, JAPAN)

L.37 A New Semiclassical Approach to the Nonlinear Optical Response of Inhomogeneous Fluids

Thomas Seckel (Tybrin Corporation)

L.38 Relaxation on Critical Percolation Clusters and Smart Self Avoiding Random Walks

Ferdinand Evers (University of Oregon)

L.39 \ Quantum Monte Carlo Simulation of Helium with Random Potential \

Masako Takasu, Masahito Hashimoto (Dept. Computational Science, Kanazawa University)

L.40 Path Integral Monte Carlo Simulations of ^3He-^4He Mixtures

Gregory H. Bauer, David M. Ceperley, Terrence Y. Chay, Nigel Goldenfeld (University of Illinois, Urbana-Champaign)

L.41 Calculation of Stark Resonances in Hydrogen

Calvin Stubbins (Department of Physics amp; Astronomy, Franklin amp; Marshall College)

L.42 Algebraic Methods in Computational Quantum Mechanics

B. A. Shadwick, W. F. Buell (The Institute for Advanced Physics)

L.43 An Energy Curve Family of Semi-Infinite Lattice and the Transition Point in the Two-Dimensional Potts Model.

Shingo Ohya (Nagoya Bunri College), Hiroshi Katsumori (Chubu University (Retired))

L.44 Nanoscale Sm_0.25Zr_0.75Fe_3 Produced By Mechanical Alloying.

D. Seifu, E. Hoffman, F.W. Oliver (Morgan State University), A. Aning (Virginia Polytechnic Inst. and State University), V. Suresh, M.S. Seehra (West Virginia University)

L.45 Modelling Solid State Laser Resonators

Raphael Z. Yahel (The Open University of Israel), Konrad Altmann (Micro Systems Design GmbH,Munich,Germany)

L.46 Higer Order Generalized Upwinding for Simulation of Hydrodynam= ic Semiconductor Equations

Robert Fithen, Yihan Jiang, Wai-Kay Yip, Ming-C. Cheng (University of New Orleans)

L.47 Adaptive Mesh Refinement Techniques for Plasma Based Semiconductor Processing Simulation

Daniel D. Wake (Lawrence Livermore National Laboratory, U.C. Davis), Milo R. Dorr, Phillip Colella (Lawrence Berkeley National Laboratory), Garry Rodrigue (Lawrence Livermore National Laboratory, U.C. Davis)

L.48 Long Range Magnetic Order versus Singlet Formation in Correlated Electron Systems

Richard T. Scalettar, Carey Huscroft (U.C.~Davis), Andrew K. McMahan, Roy Pollock (LLNL)

L.49 Diffusion Monte Carlo Method on Curved Manifolds

V. Melik-Alaverdian, N. E. Bonesteel (Dept. of Physics and NHMFL, Florida State University), G. Ortiz (Theoretical Division, Los Alamos National Laboratory)

L.50 Antiferromagnetism in cuprates from the three--band model

Mehdi Malouche

L.51 Numerical dynamics of the transient response of Josephson-coupled multilayers

Susanne Lomatch (Northwestern University, Evanston, IL 60208-3118)

L.52

L.53 Polarons by Nonlocal Dynamical Coherent Potential Method

S.V. Izvekov (Department of Physics, Kiev University, pr.Glushkov, 6, Kiev 252022, Ukraine)

L.54 Macroscopic Quantum Phase-Locking Model for the Quantum Hall = Effect

Te-Chun Wang, Yih-Shun Gou (Chiao-Tung University, Taiwan)

L.55 HIGH TEMPERATURE MODELING OF AGING EFFECTS IN POLYMERS OBSERVED BY THERMAL STIMULATED CURRENTS.

M. Puma (Instituto de Ingenieria), Nery Suarez (Universidad Simon Bolivar)

L.56 Defect Production and Microstructure Evolution in Irradiated Metals

Tomas Diaz de la Rubia (Lawrence Livermore National Laboratory), Naoki Soneda (CRIEPI, Tokyo, Japan), Eduardo Alonso (Lawrence Livermore National Laboratory)

L.57 Single particle properties of the 2-D Hubbard model

S. Grabowski, K. Kadau, P. Entel (Theoretische Tieftemperaturphysik, Gerhard-Mercator-Universität Duisburg, 47048 Duisburg, Germany), V. Zlatic (Institute of Physics, Zagreb, Croatia)

L.58 From nonorthogonal electron group functions to generalized pseudopotencials

Boris P. Zapol, Girts Barinovs (Institute of Chemical Physics, University of Latvia)

L.59 First Principles Calculation of Intial Oxidation Processes of Si(001) Surface

Uda Tsuyoshi, Kato Koichi (JRCAT-ATP), Terakura Kiyoyuki (JRCAT-NAIR)

L.60 Ab Initio Hartree-Fock Simulations of Silver Film Adhesion on Both alpha - Al2O3 (0001) and MgO (100) Surfaces

Yu. Zhukovskii (Institute of Solid State Physics, University of Latvia), E. Heifets (Department of Chemistry, University of California at Davis), E. Kotomin (Institute of Solid State Physics, University of Latvia)

L.61

L.62 Cluster Calculations and Spectroscopic Study of the Electronic Structure of the Zirconolite-Type Compounds Ln_2Ti_2O_7 (Ln=Rare Earth Elements)

S.V. Borisenko, V.N. Uvarov, A.N. Yaresko, T.N. Bondarenko (Institute of Metal Physics NAS of Ukraine)

L.63

L.64 A Materials Science Study: Molecular-Dynamics Simulations of Crack Propagation and Martensitic Transformation

K. Kadau, S. Grabowski, M. Clossen, R. Meyer, P. Entel (Theoretische Tieftemperaturphysik, Gerhard-Mercator-Universität Duisburg, 47048 Duisburg, Germany.)

L.65 Molecular Dynamics Study of Hydrogen in a Nb (100) slab

A.H. Romero, Ivan K. Schuller (Physics Department, University of California, San Diego), R. Ramirez (Facultad de Fisica, Universidad Catolica, Chile)

L.66 Defects in hybrid nematic films: a Monte Carlo Simulation

P. Pasini, C. Chiccoli (INFN - Bologna, Italy), O. D. Lavrentovich (LCI, Kent State University, Ohio.), C. Zannoni (Bologna University, Italy)

L.67 Application of Simulated Annealing Method to Hydrogen-bond Lattices

Masaru Kato, Takashi Hirata, Hiroyuki Yamashita (Department of Mathematical Sciences, Osaka Prefecture University, Sakai, Osaka, Japan), Akira Nakanishi (Department of Physics, Osaka Institute of Technology, Osaka, Japan), Takeo Matsubara

L.68 Monte Carlo Approaches to the Double-Exchange Systems on Cubic Lattices

N. Furukawa (ISSP, Univ. of Tokyo)

L.69 Perpendicular Order in Frustrated Magnetic Layers

M. Enjalran, S.M. Kauzlarich, R.T. Scalettar (U.C.~Davis)

L.70 Monte Carlo Methods in Transition Metal Alloys

Rixio Parra (Centro de Fisica, IVIC, Apdo. 21827, Caracas 1020-A, Venezuela)

L.71 Monte Carlo study of the Widom-Rowlinson fluid using cluster methods.

Gregory Johnson, Harvey Gould (Clark University), Jon Machta (U. Mass.), Lincoln Chayes (UCLA)

L.72 Simulation of Optical Gradient Traps via the Vector Finite Element Method

Daniel White (UC Davis and Lawrence Livermore National Labroratory)

L.73 Hybrid N--body techniques using SCF

Steinn Sigurdsson (IoA, Cambridge)

L.74 Linear Scaling Solution of the Coulomb problem using wavelets

Stefan Goedecker (Max-Planck Institute, Stuttgart, Germany), Oleg Ivanov (P.N. Lebedev Physical Institute, Moscow, Russia)

L.75 Simulation of Gravitational Radiation Antennas

J.F. de Ronde, G.D. van Albada, P.M.A. Sloot (UvA)

L.76 The Tecolote Framework for Multi-Material Hydrodynamics

Tecolote Team (Los Alamos National Laboratory)

L.77 Object Oriented Component Framework for Experimental Data Analysis in Nuclear Physics

Wojciech Skulski (Nuclear Structure Research Lab and Chemistry Department, University of Rochester)

L.78 The Embedded Curved Boundary Method for Orthogonal Simulation Meshes.

D.W. Hewett, C.S. Kueny, M.R. Gibbons (Center for Computational Physics, Lawrence Livermore National Laboratory.)

L.79 The Generalized Balanced Ternary (GBT) High-Performance Computational ''Tool--Kit''

R. E. De Kinder Jr. (NMSU), J. R. Barnes (Litton PRC)

L.80 Computational/HPC Physics Education

Rubin H Landau (Oregon State University amp; Northwest Alliance for Computational Science and Engineering (NACSE))

L.81 Solving Bethe-Salpeter Equation Using a Separable Effective Gluon Propagator

Lu Qian, Peter C. Tandy (Physics Department, Kent State University)