We describe a parallel benchmark procedure and numerical results for a three-dimensional binary stochastic medium particle transport benchmark problem. The binary stochastic medium is composed of optically thick spherical inclusions distributed in an optically thin background matrix material. We investigate three sphere mean chord lengths, three distributions for the sphere radii (constant, uniform, and exponential), and six sphere volume fractions ranging from 0.05 to 0.3. For each sampled independent material realization, we solve the associated transport problem using the Mercury Monte Carlo particle transport code. We compare the ensemble-averaged benchmark fiducial tallies of reflection from and transmission through the spatial domain ...
Particle-loaded materials are sometimes used for radiation shielding. In many cases shielding calcul...
Two-dimensional hard disks are a fundamentally important many-body model system in classical statist...
Suppose that a homogeneous system of spherical particles (d-spheres) with independent identically di...
Neutron transport through a special case stochastic mixture is examined, in which spheres of constan...
International audienceParticle transport in random media obeying a given mixing statistics is key in...
AbstractChord length sampling method in Monte Carlo simulations is a method used to model spherical ...
We give numerical benchmark results for particle transport in a randomly mixed binary medium, with t...
International audienceParticle transport in random media obeying a given mixing statistics is key in...
International audienceThe Chord Length Sampling (CLS) algorithm is a powerful Monte Carlo method tha...
International audienceWe analyze the packing properties of simulated three-dimensional polydisperse ...
This paper presents a new proposition on how to derive mathematical formulas that describe an unknow...
Abstract--We give numerical benchmark results for particle transport in a randomly mixed binary medi...
International audienceThe relationship between statistical distributions of geometrical parameters a...
Global deep-penetration transport problems are difficult to solve using traditional Monte Carlo tech...
This thesis is dedicated to the study of mass transport processes (flow, diffusion, and hydrodynamic...
Particle-loaded materials are sometimes used for radiation shielding. In many cases shielding calcul...
Two-dimensional hard disks are a fundamentally important many-body model system in classical statist...
Suppose that a homogeneous system of spherical particles (d-spheres) with independent identically di...
Neutron transport through a special case stochastic mixture is examined, in which spheres of constan...
International audienceParticle transport in random media obeying a given mixing statistics is key in...
AbstractChord length sampling method in Monte Carlo simulations is a method used to model spherical ...
We give numerical benchmark results for particle transport in a randomly mixed binary medium, with t...
International audienceParticle transport in random media obeying a given mixing statistics is key in...
International audienceThe Chord Length Sampling (CLS) algorithm is a powerful Monte Carlo method tha...
International audienceWe analyze the packing properties of simulated three-dimensional polydisperse ...
This paper presents a new proposition on how to derive mathematical formulas that describe an unknow...
Abstract--We give numerical benchmark results for particle transport in a randomly mixed binary medi...
International audienceThe relationship between statistical distributions of geometrical parameters a...
Global deep-penetration transport problems are difficult to solve using traditional Monte Carlo tech...
This thesis is dedicated to the study of mass transport processes (flow, diffusion, and hydrodynamic...
Particle-loaded materials are sometimes used for radiation shielding. In many cases shielding calcul...
Two-dimensional hard disks are a fundamentally important many-body model system in classical statist...
Suppose that a homogeneous system of spherical particles (d-spheres) with independent identically di...