Monte-Carlo Methods and Applications in Neutronics, Photonics and Statistical Physics

Inhaltsverzeichnis

• Some aspects of nuclear data evaluation at Bruyeres-Le-Chatel (BRC).
• Nuclear data for MCNP.
• Main features of the multipurpose Monte-Carlo linear transport code sicomore.
• MCNP - a general Monte Carlo code for neutron and photon transport.
• PARTMC : A partticle transport Monte-Carlo code.
• Monte Carlo: In the beginning and some great expectations.
• Biasing techniques in TRIPOLI-2 system using the Monte Carlo method in three-dimensional geometries.
• MCNP variance reduction overview.
• Principle of the random walk method for radiative transfer equations and application.
• Implicit Monte Carlo methods and non-equilibrium Marshak wave radiative transport.
• Energy conservation in radiation hydrodynamics. Application to the Monte Carlo method used for photon transport in the fluid frame.
• Non deterministic methods for charged particle transport.
• Monte-Carlo treatment of nonlinear collisional effects in charged particle transport.
• Methods of Monte Carlo electron transport in particle-in-cell codes.
• Monte Carlo methods in classical statistical mechanics.
• Equation of state of molecular fluids.
• A special purpose computer for the electrical conductivity of disordered media.
• MECA: A multiprocessor concept specialized to Monte Carlo.
• High-energy particle Monte Carlo at Los Alamos.
• Monte-Carlo algorithms for neural dynamics.
• Monte Carlo simulations of fermion systems: The determinant method.
• Monte Carlo sampling strategies for lattice gauge calculations.
• Vectorization and multitasking with a Monte Carlo code for neutron transport problems.
• Vectorized Monte Carlo neutron transport.
• SABRINA — An interactive solid geometry modeling program for Monte Carlo.
• Monte Carlo electron/photon transport.
• Adjoint Monte-Carlo method with fictitious scattering in deep penetration andlong-distance detector calculations.
• BIAF code for reliability studies.
• Biasing in random number space.
• Perturbation calculations by the correlated samples method.
• Non statistical Monte-Carlo.
• Low-discrepancy point sets in transport codes.
• A first collision source method for coupling Monte Carlo and discrete ordinates for localized source problems.
• Complementarity of Monte-Carlo and deterministic methods.
• Monte-Carlo eigenvalue calculation.
• A set of problems solved by TRIPOLI 2 A 3 D Monte-Carlo system.
• Fast breeder reactor neutronic propagation analysis by Monte-Carlo methods.
• Application of Monte Carlo methods to criticality calculations for pressurized water reactors.
• Benchmark calculations: Summary of the results presented at the conference.
• Group cross sections calculations.
• The direct simulation Monte-Carlo method applied to dilute gas dynamics.
• Using last event estimator for detection calculations.