Modeling of Deuteron-Induced Reactions on Molybdenum at Low Energies

The activities of the EUROfusion consortium on the development of high quality nuclear data for fusion applications include evaluations of deuteron induced reactions and related data libraries for needs of the DEMO fusion power plant and IFMIF-DONES neutron-source nuclear analyses. Molybdenum is one...

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Veröffentlicht in:	Journal of fusion energy 2024-05, Vol.43 (1), p.15, Article 15
Hauptverfasser:	Avrigeanu, Marilena, Šimečková, Eva, Mrázek, Jaromir, Costache, Cristian, Avrigeanu, Vlad
Format:	Artikel
Sprache:	eng
Schlagworte:	Critical components Deuterons Elastic scattering Energy Systems Libraries Modelling Molybdenum Neutrons Nuclear cross sections Nuclear Energy Nuclear Fusion Nuclear power plants Physics Physics and Astronomy Plasma Physics Stainless steels Sustainable Development
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creator	Avrigeanu, Marilena Šimečková, Eva Mrázek, Jaromir Costache, Cristian Avrigeanu, Vlad
description	The activities of the EUROfusion consortium on the development of high quality nuclear data for fusion applications include evaluations of deuteron induced reactions and related data libraries for needs of the DEMO fusion power plant and IFMIF-DONES neutron-source nuclear analyses. Molybdenum is one of the major constituents of the reference stainless steels used in critical components of these projects. While the TENDL deuteron data library was the current reference used by EUROfusion, need of its further improvement has already been pointed out. The weak binding energy of the deuteron is responsible for the high complexity of its interaction with nuclei, involving also a variety of reactions initiated by the nucleons following the deuteron breakup. Their analysis completed that of the deuteron interactions with Mo and its stable isotopes, from elastic scattering to pre-equilibrium and compound–nucleus reactions, up to 50 MeV. A particular attention has been paid to the breakup, stripping, and pick-up direct interactions which amount to around half of the deuteron total–reaction cross section. The due account of most experimental data has validated the present approach, highlighted some prevalent features, and emphasized weak points and consequently the need for modeling/evaluation upgrade.
doi_str_mv	10.1007/s10894-024-00407-w
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subjects	Critical components Deuterons Elastic scattering Energy Systems Libraries Modelling Molybdenum Neutrons Nuclear cross sections Nuclear Energy Nuclear Fusion Nuclear power plants Physics Physics and Astronomy Plasma Physics Stainless steels Sustainable Development
title	Modeling of Deuteron-Induced Reactions on Molybdenum at Low Energies
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