Add to ORKGWe use the variable Eddington factor (VEF) approximation to solve the time-dependent two-dimensional radiation transfer equation. The transfer equation and its moments are derived for an inertial frame of reference in cylindrical geometry. Using the VEF tensor to close the moment equations, we manipulate them into a combined moment equation that results in an energy equation, which is automatically flux limited. There are two separable facets in this method of solution. First, given the variable Eddington tensor, we discuss the efficient solution of the combined moment matrix equation. The second facet of the problem is the calculation of the variable Eddington tensor. Several options for this calculation, as well as physical limitations on...
The purpose of this paper is to give an overview of the role of radiation in the transport of energy...
The emergent flux for radiation transfer in inhomogeneous half-space for exponential c (x) = 1+ke −...
. The discretization of the multi--dimensional radiative transfer equation results in a very large l...
In this paper, a geometric closure method for radiative transfer equations has been developed and in...
shown in $$80 and 97, entirely analogous results are possible for radiation in the limit that k,,/1 ...
Numerically modeling the high energy density regimes characteristic of astrophysical phenomena and i...
Adjoint methods can provide a first-order approximation of the response a physical system experience...
Variable Eddington factors and flux limiting diffusion coefficients arise in two common techniques o...
In this, the third of a series of three papers, we conclude a detailed description of ZEUS-2D, a num...
Eddington factors are a common ingredient in many techniques for solving radiation hydrodynamics pro...
Constitutive equations are determined for the radiation stresses in covariant radiation hydrodynamic...
Methods for the solution of non-LTE radiative transfer equations in a cylinder, with external incide...
In Inertial Connement Fusion (ICF) experiments, radiation is well described by a kinetic model (radi...
The time-dependent equation of radiative transfer is solved for an axisymmetric cylindrical medium u...
Relativistic radiative transfer in a relativistic plane-parallel flow is examined in a fully special...
The purpose of this paper is to give an overview of the role of radiation in the transport of energy...
The emergent flux for radiation transfer in inhomogeneous half-space for exponential c (x) = 1+ke −...
. The discretization of the multi--dimensional radiative transfer equation results in a very large l...
In this paper, a geometric closure method for radiative transfer equations has been developed and in...
shown in $$80 and 97, entirely analogous results are possible for radiation in the limit that k,,/1 ...
Numerically modeling the high energy density regimes characteristic of astrophysical phenomena and i...
Adjoint methods can provide a first-order approximation of the response a physical system experience...
Variable Eddington factors and flux limiting diffusion coefficients arise in two common techniques o...
In this, the third of a series of three papers, we conclude a detailed description of ZEUS-2D, a num...
Eddington factors are a common ingredient in many techniques for solving radiation hydrodynamics pro...
Constitutive equations are determined for the radiation stresses in covariant radiation hydrodynamic...
Methods for the solution of non-LTE radiative transfer equations in a cylinder, with external incide...
In Inertial Connement Fusion (ICF) experiments, radiation is well described by a kinetic model (radi...
The time-dependent equation of radiative transfer is solved for an axisymmetric cylindrical medium u...
Relativistic radiative transfer in a relativistic plane-parallel flow is examined in a fully special...
The purpose of this paper is to give an overview of the role of radiation in the transport of energy...
The emergent flux for radiation transfer in inhomogeneous half-space for exponential c (x) = 1+ke −...
. The discretization of the multi--dimensional radiative transfer equation results in a very large l...