Theoretical model analysis of (d,xn) reactions on Be 9 and C 12 at incident energies up to 50 MeV

Shinsuke Nakayama, Hiroshi Kouno, Yukinobu Watanabe, Osamu Iwamoto, Kazuyuki Ogata

研究成果: Contribution to journalArticle査読

16 被引用数 (Scopus)

抄録

Background: In the design of deuteron accelerator neutron sources, accurate nuclear data of deuteron-induced reactions are indispensable over a wide range of incident energy. Reliable model calculations play an important role in completing the necessary nuclear data since currently available experimental data are insufficient. We have been developing a code system dedicated for the deuteron-induced reactions, called deuteron-induced reaction analysis code system (DEURACS). It was applied successfully to (d,xp) reactions at 56 and 100 MeV. Purpose: The purpose of the present work is to investigate the applicability of DEURACS to (d,xn) reactions on Be9 and C12 for incident energies below 50 MeV and to clarify neutron production mechanism. Methods: Double-differential thick target neutron yields (TTNYs) from deuteron bombardment on thick Be and C targets are analyzed. The TTNYs are derived using the double differential (d,xn) cross sections calculated by DEURACS and the stopping power of deuteron in the target. The calculated TTNYs are decomposed into individual components corresponding to elastic breakup, proton stripping, and statistical decay reactions. Results: The calculated TTNYs reproduced the experimental data quantitatively well in the incident energy range up to 50 MeV. From the analysis, it was found that the proton stripping reaction makes the most dominant contribution to neutron production. Conclusions: DEURACS is applicable to (d,xn) reactions on Be9 and C12 for incident energies below 50 MeV. Modeling of the stripping reaction is essential to predict neutron production yields accurately in the design of deuteron accelerator neutron sources.

本文言語英語
論文番号014618
ジャーナルPhysical Review C
94
1
DOI
出版ステータス出版済み - 7 29 2016

All Science Journal Classification (ASJC) codes

  • Nuclear and High Energy Physics

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