A study on neutron emission for proton-induced reactions in 90 Zr, 91 Zr, and 115 In isotopes

Fusion energy heralds the potential of a transformative era, offering a significant solution to global challenges such as climate change, ozone depletion and environmental pollution. Despite its promising prospects, the commercialization of fusion faces several challenges, including high temperature...

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Bibliographic Details
Published in:Applied radiation and isotopes 2024-10, Vol.212, p.111468
Main Authors: Kara, Ayhan, Mammadzada, Emil
Format: Article
Language:English
Online Access:Get full text
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Summary:Fusion energy heralds the potential of a transformative era, offering a significant solution to global challenges such as climate change, ozone depletion and environmental pollution. Despite its promising prospects, the commercialization of fusion faces several challenges, including high temperature, pressure, plasma stability, fuel supply, costs, etc. It is important to effectively analyze material behavior under plasma conditions, especially in environments where fusion reactions produce high-energy particles such as neutrons. This study investigates the angle-dependent neutron production mechanisms of proton-induced reactions involving the isotopes Zr, Zr and In, which are widely used in fusion reactor materials. Using the Monte Carlo codes PHITS 3.32 and FLUKA, as well as the TALYS 1.96 code, double differential cross-section calculations for neutron emission were performed considering various angles. The research contributes to a broader understanding of fusion processes by providing insights into the behavior of these isotopes under proton-induced reactions.
ISSN:1872-9800
DOI:10.1016/j.apradiso.2024.111468