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Physical Processes and Applications of the Monte Carlo Radiative Energy Deposition (MRED) Code.

Authors :
Reed, Robert A.
Weller, Robert A.
Mendenhall, Marcus H.
Fleetwood, Daniel M.
Warren, Kevin M.
Sierawski, Brian D.
King, Michael P.
Schrimpf, Ronald D.
Auden, Elizabeth C.
Source :
IEEE Transactions on Nuclear Science; 8/1/2015 Part 1, Vol. 62 Issue 4a, p1441-1461, 21p
Publication Year :
2015

Abstract

MRED is a Python-language scriptable computer application that simulates radiation transport. It is the computational engine for the on-line tool CRÈME-MC. MRED is based on c++ code from Geant4 with additional Fortran components to simulate electron transport and nuclear reactions with high precision. We provide a detailed description of the structure of MRED and the implementation of the simulation of physical processes used to simulate radiation effects in electronic devices and circuits. Extensive discussion and references are provided that illustrate the validation of models used to implement specific simulations of relevant physical processes. Several applications of MRED are summarized that demonstrate its ability to predict and describe basic physical phenomena associated with irradiation of electronic circuits and devices. These include effects from single particle radiation (including both direct ionization and indirect ionization effects), dose enhancement effects, and displacement damage effects. MRED simulations have also helped to identify new single event upset mechanisms not previously observed by experiment, but since confirmed, including upsets due to muons and energetic electrons. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00189499
Volume :
62
Issue :
4a
Database :
Complementary Index
Journal :
IEEE Transactions on Nuclear Science
Publication Type :
Academic Journal
Accession number :
108970847
Full Text :
https://doi.org/10.1109/TNS.2015.2454446