MCNP5 for proton radiography

The developmental version of MCNP5 has recently been extended to provide for continuous-energy transport of high-energy protons. This enhancement involves the incorporation of several significant new physics models into the code. Multiple Coulomb scattering is treated with an advanced model that tak...

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Veröffentlicht in:Radiation protection dosimetry 2005-12, Vol.116 (1-4), p.109-112
Hauptverfasser: Hughes, H. Grady, Brown, Forrest B., Bull, Jeffrey S., Goorley, John T., Little, Robert C., Liu, Lon-Chang, Mashnik, Stepan G., Prael, Richard E., Selcow, Elizabeth C., Sierk, Arnold J., Sweezy, Jeremy E., Zumbro, John D., Mokhov, Nikolai V., Striganov, Sergei I., Gudima, Konstantin K.
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container_end_page 112
container_issue 1-4
container_start_page 109
container_title Radiation protection dosimetry
container_volume 116
creator Hughes, H. Grady
Brown, Forrest B.
Bull, Jeffrey S.
Goorley, John T.
Little, Robert C.
Liu, Lon-Chang
Mashnik, Stepan G.
Prael, Richard E.
Selcow, Elizabeth C.
Sierk, Arnold J.
Sweezy, Jeremy E.
Zumbro, John D.
Mokhov, Nikolai V.
Striganov, Sergei I.
Gudima, Konstantin K.
description The developmental version of MCNP5 has recently been extended to provide for continuous-energy transport of high-energy protons. This enhancement involves the incorporation of several significant new physics models into the code. Multiple Coulomb scattering is treated with an advanced model that takes account of projectile and nuclear target form factors. In the next version, this model will provide a coupled sampling of both angular deflection and collisional energy loss, including straggling. The proton elastic scattering model is also new, based on recent theoretical work. Charged particle transport in the presence of magnetic fields is accomplished either by using transfer maps from the COSY INFINITY code (in void regions) or by using an algorithm adapted from the MARS code (in void regions or in scattering materials). Work is underway to validate and implement the latest versions of the Cascade-Exciton Model and the Los Alamos Quark-Gluon String Model, which will process inelastic nuclear interactions and generate secondary particles.
doi_str_mv 10.1093/rpd/nci109
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source MEDLINE; Oxford University Press Journals All Titles (1996-Current)
subjects Algorithms
Computer Simulation
Computer-Aided Design
Linear Energy Transfer
Models, Statistical
Monte Carlo Method
Protons
Radiation Dosage
Radiation Protection - methods
Radiographic Image Interpretation, Computer-Assisted - methods
Radiography - methods
Radiometry - methods
Scattering, Radiation
Software
Software Design
User-Computer Interface
title MCNP5 for proton radiography
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