DOE CODE / / SCEPTRE v. 2.0 (Sandia Computational Engine for Particle Transport for Radiat

SCEPTRE v. 2.0 (Sandia Computational Engine for Particle Transport for Radiat

Full Project

Abstract

SCEPTRE solves the linear Boltzmann transport equation for general one-, two- and three-dimensional unstructured-mesh Cartesian geometries. SCEPTRE can handle any particle type for which multigroup-Legendre cross sections are available. However, the code is designed primarily to model the transport of photons, electrons, and positrons through matter. SCEPTRE 2.0 includes several auxiliary packages for pre- and post-processing, regression testing, stochastic radiation transport, thermal radiation transport, and charged-particle transport in the presence of electromagnetic fields. SCEPTRE 2.0 includes sophisticated transport-synthetic acceleration and ray-effects mitigation capabilities.

Developers:

Pautz, Shawn ^[1] ; Fan, Wesley ^[1] ; Bohnhoff, William ^[1] ; Drumm, Clifton ^[1] ; Bruss, Donald ^[1] ; Campbell, Benjamin ^[2]

Sandia National Lab. (SNL-NM), Albuquerque, NM (United States)
AWE

Release Date:: 2018-11-19

Project Type:: Closed Source

Software Type:: Scientific

Programming Languages:: C++

Version:: v. 2.0

Licenses:: Other (Commercial or Open-Source): https://ip.sandia.gov/contact-form

Sponsoring Org.:: USDOE

Primary Award/Contract Number:

NA0003525

Code ID:: 20657

Site Accession Number:: SCR#1284

Research Org.:: Sandia National Laboratories (SNL-NM), Albuquerque, NM (United States)

Country of Origin:: United States

Citation Formats

Pautz, Shawn, Fan, Wesley, Bohnhoff, William, Drumm, Clifton, Bruss, Donald, and Campbell, Benjamin. SCEPTRE v. 2.0 (Sandia Computational Engine for Particle Transport for Radiat. Computer Software. USDOE. 19 Nov. 2018. Web. doi:10.11578/dc.20181120.2.

Pautz, Shawn, Fan, Wesley, Bohnhoff, William, Drumm, Clifton, Bruss, Donald, & Campbell, Benjamin. (2018, November 19). SCEPTRE v. 2.0 (Sandia Computational Engine for Particle Transport for Radiat. [Computer software]. https://doi.org/10.11578/dc.20181120.2.

Pautz, Shawn, Fan, Wesley, Bohnhoff, William, Drumm, Clifton, Bruss, Donald, and Campbell, Benjamin. "SCEPTRE v. 2.0 (Sandia Computational Engine for Particle Transport for Radiat." Computer software. November 19, 2018. https://doi.org/10.11578/dc.20181120.2.

@misc{ doecode_20657,

title = {SCEPTRE v. 2.0 (Sandia Computational Engine for Particle Transport for Radiat},

author = {Pautz, Shawn and Fan, Wesley and Bohnhoff, William and Drumm, Clifton and Bruss, Donald and Campbell, Benjamin},

abstractNote = {SCEPTRE solves the linear Boltzmann transport equation for general one-, two- and three-dimensional unstructured-mesh Cartesian geometries. SCEPTRE can handle any particle type for which multigroup-Legendre cross sections are available. However, the code is designed primarily to model the transport of photons, electrons, and positrons through matter. SCEPTRE 2.0 includes several auxiliary packages for pre- and post-processing, regression testing, stochastic radiation transport, thermal radiation transport, and charged-particle transport in the presence of electromagnetic fields. SCEPTRE 2.0 includes sophisticated transport-synthetic acceleration and ray-effects mitigation capabilities.},

doi = {10.11578/dc.20181120.2},

url = {https://doi.org/10.11578/dc.20181120.2},

howpublished = {[Computer Software] \url{https://doi.org/10.11578/dc.20181120.2}},

year = {2018},

month = {nov}

}

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