Journal
IEEE TRANSACTIONS ON NUCLEAR SCIENCE
Volume 69, Issue 3, Pages 273-281Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TNS.2022.3149989
Keywords
Neutrons; Radiation effects; Histograms; Geometry; Data models; Silicon; Physics; Energy deposition; Geant4 (G4); Monte Carlo (MC) simulation; neutron irradiation; silicon diode; single-event effect (SEE)
Funding
- CERN
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A single-event effect (SEE) simulation toolkit has been developed at CERN and released as an open-source code for the radiation effects community. It has been validated by comparing the simulated energy deposition of inelastic interactions caused by monoenergetic neutrons in the 1.2-17 MeV energy range to the distribution measured experimentally by a silicon diode detector.
A single-event effect (SEE) simulation toolkit has been developed at CERN for the whole radiation effects community and released as an open-source code. It has been validated by comparing the simulated energy deposition of inelastic interactions, due to monoenergetic neutrons in the 1.2-17 MeV energy range, to the distribution measured experimentally by a silicon diode detector.
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