In this summary we review the complementary research being undertaken at AWE and LLNL aimed at developing optimally efficient algorithms for Monte Carlo thermal radiation transport based on the difference formulation. We conclude by presenting preliminary results on the application of Newton-Krylov methods for solving the Symbolic Implicit Monte Carlo (SIMC) energy equation
The present manuscript addresses the issues of optimization and analysis of thermal systems, specifi...
In this paper, we present a new implicit Monte-Carlo scheme for photonics. The new solver combines t...
Radiative heat transfer in participating media is among the most challenging computational engineeri...
We describe a Monte Carlo solution for time dependent photon transport, in the difference formulatio...
The thermal radiative transfer equations are extremely complex to solve; however, accurate solutions...
We consider two existing asynchronous parallel algorithms for Implicit Monte Carlo (IMC) thermal rad...
During the past 35 years, the Implicit Monte Carlo (IMC) method proposed by Fleck and Cummings has b...
Radiation transport codes, like almost all codes, are difficult to develop and debug. It is helpful ...
Five Monte Carlo methods for solving the nonlinear thermal radiation transport equations are compare...
The Implicit Monte Carlo (IMC) method has been used for over 30 years to analyze radiative transfer ...
We have implemented a new high-order low-order (HOLO) algorithm for solving thermal radiative transf...
The Implicit Monte Carlo (IMC) method has been a standard method for thermal radiative transfer for ...
International audienceThe present work assesses different Monte Carlo methods in radiative heat tran...
Monte Carlo methods are frequently used for neutron and radiation transport. These methods have seve...
In this note we develop a robust implicit Monte Carlo (IMC) algorithm based on more accurately updat...
The present manuscript addresses the issues of optimization and analysis of thermal systems, specifi...
In this paper, we present a new implicit Monte-Carlo scheme for photonics. The new solver combines t...
Radiative heat transfer in participating media is among the most challenging computational engineeri...
We describe a Monte Carlo solution for time dependent photon transport, in the difference formulatio...
The thermal radiative transfer equations are extremely complex to solve; however, accurate solutions...
We consider two existing asynchronous parallel algorithms for Implicit Monte Carlo (IMC) thermal rad...
During the past 35 years, the Implicit Monte Carlo (IMC) method proposed by Fleck and Cummings has b...
Radiation transport codes, like almost all codes, are difficult to develop and debug. It is helpful ...
Five Monte Carlo methods for solving the nonlinear thermal radiation transport equations are compare...
The Implicit Monte Carlo (IMC) method has been used for over 30 years to analyze radiative transfer ...
We have implemented a new high-order low-order (HOLO) algorithm for solving thermal radiative transf...
The Implicit Monte Carlo (IMC) method has been a standard method for thermal radiative transfer for ...
International audienceThe present work assesses different Monte Carlo methods in radiative heat tran...
Monte Carlo methods are frequently used for neutron and radiation transport. These methods have seve...
In this note we develop a robust implicit Monte Carlo (IMC) algorithm based on more accurately updat...
The present manuscript addresses the issues of optimization and analysis of thermal systems, specifi...
In this paper, we present a new implicit Monte-Carlo scheme for photonics. The new solver combines t...
Radiative heat transfer in participating media is among the most challenging computational engineeri...