Numerical methods for the linear Boltzmann transport equation in slab geometry

## Abstract The goal of this paper is to analyse some spectral properties of time‐dependent monoenergetic linear transport equation with perfect reflecting boundary conditions.It is proved that the streaming operator generates a strongly continuous group and its explicit expression is derived. This

## Abstract In this paper we present the asymptotic analysis of the linear Boltzmann equation for neutrons with a small positive parameter ϵ related to the mean free path, based upon the Chapman–Enskog procedure of the kinetic theory. We prove that if proper initial conditions derived by considerin

## Abstract The stationary Boltzmann equation for hard forces in the context of a two‐component gas is considered in the slab. An __L__^1^ existence theorem is proved when one component satisfies a given indata profile and the other component satisfies diffuse reflection at the boundaries. Weak __L

The reduced system of non-linear resistive MHD equations is used in the 2-D one helicity approximation in the numerical computations of stationary tearing modes. The critical magnetic Reynolds number S (S = ;/TH where Tj~and TH are, respectively, the characteristic resistive and hydromagnetic times)

We present new numerical models for computing transitional or rarefied gas flows as described by the Boltzmann-BGK and BGK-ES equations. We first propose a new discrete-velocity model, based on the entropy minimization principle. This model satisfies the conservation laws and the entropy dissipation