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Authors
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Title of Paper
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Session 1 Title (Chairs): Classical Transport Theory (Ed Larsen & Giovanni Frosali) |
| P Zweifel, US |
1.1 Recent Developments in Classical Transport Theory |
| B Ganapol, US |
1.2 From Fourier Transforms to Singular Eigenfunctions: Multigroup Neutron Transport
Revisited |
| D Song & W Greenberg, US |
1.3 Spectral Properties of Transport Equations In Spherical Geometry with Reentry Boundary
Conditions |
| G Busoni, Italy |
1.4 Charge Exchange: Asymptotic Behaviour and Wave Operators |
| R Pettersson, Sweden |
1.5 On Solution for the Linear Boltzmann Equation |
| V Protopopescu, US |
1.6 On the Singular Limit of a Model Transport Equation |
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Session 2 Title (Chair): Computational Transport Theory (Yousry Azmy) |
| R Lillie, US |
2.1 Discrete Ordinates: The Workhorse of Deterministic Transport Methods |
| J Morel & J McGhee, US |
2.2 A Self-Adjoint Angular Flux Equation |
| T Booth, US |
2.3 Some Outstanding Problems in Monte Carlo Transport Theory |
| R Sanchez, France |
2.4 Numerical Methods for the Solution of the One Group Linear Transport Equation
in Unstructured Meshes |
| C de Oliveira, C Pain, R Ackroyd, A Umpleby & A Goddard, UK |
2.5 Finite Element PN Methods: Theory and Trends |
| T Takeda, Japan |
2.6 Topics of Nodal Methods and Future Problems |
| A Morante, R Monaco & F Salvarani, Italy |
2.7 Numerical Simulations of Photon Transport in a Time Dependent Region |
| A Klar, Germany |
2.8 A Numerical Method For Radiative Heat Transfer Equations In Glass Manufacturing
Processes |
| M Asadzadeh, Sweden |
2.9 On Regularity of the Discrete Transport Operators |
| A Haghighat & G Sjoden, US |
2.10 Significance of Adaptive Differencing Formulations for Sn Methods in Void
and Pure Absorber |
| W Koller, & F Schurrer, Austria |
2.11 PN Approximation of the Nonlinear Semidiscrete Boltzmann-Equation |
| Z Zhigao, L Decong, China |
2.12 Computation and Analysis of Scattered Radiation Background on Flash Radiography |
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Session 3a (Chair): Kinetic Theory (Reinhard Illner) |
| L Desvillettes, France |
3a.1 Entropic Methods for the Study of the Long Time Behavior of Kinetic Equations |
| S Jin, US |
3a.2 High-Frequency Behavior of the Nonlinear Schroedinger Equation with Random Inhomogeneities:
Results Based on Wigner Kinetic Formulation |
| Y Guo, US |
3a.3 Stable Equilibria in Stellar Dynamics |
| A Arnold, J Carrillo & I Gamba, Germany/US |
3a.4 Chapman-Enskog Expansion for the High-Field Scaling to the Vlasov-Poisson-Fokker-Planck
Type Systems In Semiconductors |
| P Nelson & A Sopasakis, US |
3a.5 Recent Results on the Kinetic Theory of Vehicular Traffic |
| Y Wang & W Greenberg, US |
3a.6 Discrete Models of the Nonlinear Enskog Equation |
| J Dolbeault, R Illner & H Lange, France/Canada/Germany |
3a.7 On Asymmetric Quasiperiodic Solutions of Hartree-Fock Systems |
| M Groppi & G Spiga, Italy |
3a.8 Kinetic Theory of a Chemically Reacting Gas with Inelastic Transitions |
| F Hanser & F Schurrer, Austria |
3a.9 The Influence of Velocity Scaling on the Evolution of Discrete Velocity Gasses |
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Session 3b Title (Chair): Kinetic Theory (Reinhard Illner) |
| C Bose, Canada |
3b.1 Shock Waves for Discrete Velocity Models of the Boltzmann Equation via Centre
Manifolds |
| X Lu, China |
3b.2 Global Isotropic Solutions of A Modified Boltzmann Equation for Bose-Einstein Particles |
| J Polewczak , US |
3b.3 On Some Mathematical Problems in the Kinetic Theories with Chemical Reactions |
| E Carlen, US |
3b.4 Central Limit Theorem for Maxwellian Molecules, Truncation of the Wild Expansion,
and Computational Applications |
| V Panferov, Sweden |
3b.5 On The Stationary Povzner Equation in a Bounded Domain |
| G Frosali, Italy |
3b.6 Hydrodynamics Limits in Extended Kinetic Theory |
| S Takata & K Aoki, Japan |
3b.7 Asymptotic Theory of a Vapor-Gas Mixture Around Condensed Phases for Small Knudsen
Numbers: Ghost Effect In a General Geometry |
| L Soderholm, Sweden |
3b.8 Equilibrium Temperature of A Small Body in Shearing Gas Flow |
| T Chen, China |
3b.9 A Nonequilibrium Statistical Mechanics Without the Assumption o f Molecular Chaos
(II) |
| A Sopasakis & P Nelson, US |
3b.10 Further Results on the Theory of the Prigogine-Herman Kinetic Equation |
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Session 4 Title (Chair): Parallelization (Jim Rathkopf) |
| Y Azmy, US |
4.1 Shared vs Distributed Memory Programming Models for Angular Domain Decomposition
of Sn Methods |
| R Baker, US |
4.2 Parallel SN Methods for Orthogonal Grids |
| C Clouse, US |
4.3 3D Parallel Deterministic Neutron Transport with Adaptive Mesh Refinement |
| P Brown, B Chang, U Hanebutte & C Woodward, US |
4.4 Solving the Linear Boltzmann Transport Equation on Tera Scale Computers |
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Session 5 Title (Chairs): Plasma Physics (Jack Dorning & Bill Stacey) |
| W Stacey, J Mandrekas & R Rubilar, US |
5.1 Neutral Atom Integral Transport in the Plasma Edge of Fusion Experiments |
| R Hazeltine, US |
5.2 Parallel Plasma Transport at Long Mean-Free Path |
| C Lancellotti & J Dorning, US |
5.3 Long-Time Wave Propagation in Collisionless Plasmas |
| L Demeio, Italy |
5.4 Numerical Experiments of BGK Modes |
| V Molinari, M Sumini & F Rocchi, Italy |
5.5 Current and Heat Flux in a Degenerate Plasma |
| J Dorning, US |
5.6 Periodic Solutions that Bifurcate from Vlasov-Maxwell Equilibria |
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Session 6 Title (Chair):Quantum Transport (Paul Zweifel) |
| H Lange, Germany |
6.1 On Nonlinear Schrodinger Equations of Quantum Chaos |
| A Arnold, Germany |
6.2 Mathematical Concepts of Open Quantum Boundary Conditions |
| P Markowich, Germany |
6.3 Wigner Transforms and Homogenization |
| L Erdos & H Yau, US |
6.4 Linear Boltzman Equation on the Weak Coupling Limit of a Random Schrodivgen Equation |
| L Barletti, Italy |
6.5 Electron Transport in Self-Organized Quantum Dots |
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Session 7 Title (Chair): Radiation Transport (Barry Ganapol for Jerry Pomraning) |
| E Larsen, US |
7.1 Asymptotic Corrections to Fokker-Planck Theory for Particle Transport Processes
with Highly Forward-Peaked Scattering |
| A Prinja, US |
7.2 Effective Transport Equations for Fast Heavy Ions With Energy Straggling |
| N McCormick, US |
7.3 Classical Transport Analyses For Optical Oceanography |
| L Barichello & C Siewert, Brasil/US |
7.4 Concise and Accurate Discrete-Ordinates Solutions for Classical Models in
Transport Theory |
| B Su, M Fried, E Larsen, US |
7.5 Stability Analysis of Variable Eddington Factor Methods |
| G Bal, US |
7.6 Diffusion Approximation of Radiative Transfer in a Channel |
| I Carron, US |
7.7 Dealing with Haze in Texas: Solving the Transport Equation Using Spline-Wavelets |
| D Seth, US |
7.8 A Sylvester Equation in Particle Transport Theory |
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Session 8 Title (Chairs): Reactor Physics (Piero Ravetto & Richard Sanchez) |
| J Devooght, Belgium |
8.1 Dynamic Reliability as a Transport Process |
| I Abu-Shumays, US |
8.2 Angular Quadratures for Improved Transport Computations |
| I Pazsit & Z Kuang, Sweden |
8.3 Symbolic Computations in Stochastic Reactor Physics |
| A Caldeira & R Garcia, Brasil |
8.4 The PN Method for Cell Calculations of Plate-Type Fuel Assemblies |
| N Laletin & A Kovalishin, Russia |
8.5 Even Approximations of Surface Pseudosources Method for Reactor Lattice Effective
Diffusion Coefficient Computing |
| P Ravetto, Italy |
8.6 Neutron Amplification in Transport Problems for Multiplying Subcritical Systems |
