We give numerical benchmark results for particle transport in a randomly mixed binary medium, with the mixing statistics described as a homogeneous Markov process. A Monte Carlo procedure is used to generate a physical realization of the statistics, and a discrete ordinate numerical transport solution is generated for this realization. The ensemble averaged solution, as well as the variance, is obtained by averaging a large number of such calculations. Reflection and transmission results are given for several problems in both rod and planar geometry. In a separate development, two coupled transport equations are derived which formally described transport in a random binary mixture for arbitrary mixing statistics. Closing these equations by ...
The problem of linear transport in a stationary stochastic medium is examined in the context of stoc...
International audienceAbstract Monte Carlo (MC) simulations allowing to describe photons propagation...
We describe a parallel benchmark procedure and numerical results for a three-dimensional binary stoc...
Abstract--We give numerical benchmark results for particle transport in a randomly mixed binary medi...
International audienceParticle transport in random media obeying a given mixing statistics is key in...
International audienceParticle transport in random media obeying a given mixing statistics is key in...
The classic benchmarks for transport through a binary markovian mixure are revisited to look at the ...
The goal in this research was to continue the development of a comprehensive theory of linear transp...
Graduation date: 2009Transport in a binary stochastic media has been an area of interest for many ap...
International audienceThe Chord Length Sampling (CLS) algorithm is a powerful Monte Carlo method tha...
The need to investigate numerical methods for the transport of radiation (thermal photons, light, ne...
Global deep-penetration transport problems are difficult to solve using traditional Monte Carlo tech...
International audienceParticle transport in Markov mixtures can be addressed by the so-called Chord ...
International audienceWe study the ensemble statistics of the particle density in a random medium wh...
The problem of linear transport in a stationary stochastic medium is examined in the context of stoc...
International audienceAbstract Monte Carlo (MC) simulations allowing to describe photons propagation...
We describe a parallel benchmark procedure and numerical results for a three-dimensional binary stoc...
Abstract--We give numerical benchmark results for particle transport in a randomly mixed binary medi...
International audienceParticle transport in random media obeying a given mixing statistics is key in...
International audienceParticle transport in random media obeying a given mixing statistics is key in...
The classic benchmarks for transport through a binary markovian mixure are revisited to look at the ...
The goal in this research was to continue the development of a comprehensive theory of linear transp...
Graduation date: 2009Transport in a binary stochastic media has been an area of interest for many ap...
International audienceThe Chord Length Sampling (CLS) algorithm is a powerful Monte Carlo method tha...
The need to investigate numerical methods for the transport of radiation (thermal photons, light, ne...
Global deep-penetration transport problems are difficult to solve using traditional Monte Carlo tech...
International audienceParticle transport in Markov mixtures can be addressed by the so-called Chord ...
International audienceWe study the ensemble statistics of the particle density in a random medium wh...
The problem of linear transport in a stationary stochastic medium is examined in the context of stoc...
International audienceAbstract Monte Carlo (MC) simulations allowing to describe photons propagation...
We describe a parallel benchmark procedure and numerical results for a three-dimensional binary stoc...