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Title: An Evaluation of the Difference Formulation for Photon Transport in a Two Level System

Conference ·
; ; ;

In this paper we extend the difference formulation for radiation transport to the case of a single atomic line. We examine the accuracy, performance and stability of the difference formulation within the framework of the Symbolic Implicit Monte Carlo method. The difference formulation, introduced for thermal radiation by some of the authors, has the unique property that the transport equation is written in terms that become small for thick systems. We find that the difference formulation has a significant advantage over the standard formulation for a thick system. The correct treatment of the line profile, however, requires that the difference formulation in the core of the line be mixed with the standard formulation in the wings, and this may limit the advantage of the method. We bypass this problem by using the gray approximation. We develop three Monte Carlo solution methods based on different degrees of implicitness for the treatment of the source terms, and we find only conditional stability unless the source terms are treated fully implicitly.

Research Organization:
Lawrence Livermore National Lab. (LLNL), Livermore, CA (United States)
Sponsoring Organization:
US Department of Energy (US)
DOE Contract Number:
W-7405-ENG-48
OSTI ID:
15015942
Report Number(s):
UCRL-PROC-210977; TRN: US200509%%455
Resource Relation:
Journal Volume: 48; Conference: Presented at: Computational Methods in Transport Workshop, Tahoe, CA (US), 09/11/2004--09/16/2004; Other Information: PBD: 2 Mar 2005
Country of Publication:
United States
Language:
English

References (8)

An implicit Monte Carlo scheme for calculating time-dependent line transport journal November 1986
Symbolic implicit Monte Carlo journal August 1989
Asymptotic equilibrium diffusion analysis of time-dependent Monte Carlo methods for grey radiative transfer journal September 2004
An implicit Monte Carlo scheme for calculating time and frequency dependent nonlinear radiation transport journal December 1971
Comparison of implicit and symbolic implicit Monte Carlo line transport with frequency weight vector extension journal July 2003
Solution of the Nonlinear Radiative Transfer Equations by a Fully Implicit Matrix Monte Carlo Method Coupled with the Rosseland Diffusion Equation via Domain Decomposition journal May 1991
A New Time Discretization for the Radiative Transfer Equations: Analysis and Comparison with the Classical Discretization journal June 1993
The transport equation in optically thick media journal February 2005

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Related Subjects

71 CLASSICAL AND QUANTUM MECHANICS
GENERAL PHYSICS
ACCURACY
EVALUATION
MONTE CARLO METHOD
PERFORMANCE
PHOTON TRANSPORT
RADIATION TRANSPORT
SOURCE TERMS
STABILITY
THERMAL RADIATION
TRANSPORT