Email this article Monte Carlo Simulation of a Segmented Detector for Low-Energy Electron Antineutrinos
- Authors: Qomi H.A.1,2, Safari M.J.2, Davani F.A.3
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Affiliations:
- Nuclear Science and Technology Research Institute
- Department of Energy Engineering and Physics
- Radiation Application Department
- Issue: Vol 80, No 6 (2017)
- Pages: 1119-1125
- Section: Nuclei Theory
- URL: https://journal-vniispk.ru/1063-7788/article/view/192794
- DOI: https://doi.org/10.1134/S1063778817060187
- ID: 192794
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Abstract
Detection of low-energy electron antineutrinos is of importance for several purposes, such as ex-vessel reactor monitoring, neutrino oscillation studies, etc. The inverse beta decay (IBD) is the interaction that is responsible for detection mechanism in (organic) plastic scintillation detectors. Here, a detailed study will be presented dealing with the radiation and optical transport simulation of a typical segmented antineutrino detector withMonte Carlo method using MCNPX and FLUKA codes. This study shows different aspects of the detector, benefiting from inherent capabilities of the Monte Carlo simulation codes.
About the authors
H. Akhtari Qomi
Nuclear Science and Technology Research Institute; Department of Energy Engineering and Physics
Email: fabbasi@sbu.ac.ir
Iran, Islamic Republic of, Tehran; Tehran
M. J. Safari
Department of Energy Engineering and Physics
Email: fabbasi@sbu.ac.ir
Iran, Islamic Republic of, Tehran
F. Abbasi Davani
Radiation Application Department
Author for correspondence.
Email: fabbasi@sbu.ac.ir
Iran, Islamic Republic of, Tehran
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