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Interference effect between neutron direct and resonance capture reactions for neutron-rich nuclei

中性子過剰核における直接捕獲と共鳴捕獲反応間の干渉効果の研究

湊 太志; 福井 徳朗

Minato, Futoshi; Fukui, Tokuro

中性子捕獲反応は複合核過程と直接過程に分けられる。ほとんどの原子核において、複合核過程が中性子捕獲断面積の大部分を占めているが、軽核や魔法数核、中性子過剰核になると直接過程もまた重要になることが知られている。さらに、複合核過程と直接過程の間には干渉が存在することも知られている。しかしながら、複合核過程と直接過程のどちらかがもう片方より大きければ、その効果は小さく、ほとんどの原子核で干渉効果の影響は無視されてきた。しかし近年になり、一部の魔法数核において、干渉効果によると思われるデータが実験的に観測された。実際に、MengoniとOtsukaらによる理論計算によって、そのデータが干渉効果によって説明できることが報告された。同じように、中性子過剰核においても干渉効果の影響が見られるかどうかが次の課題となる。そのため、中性子過剰核の中性子捕獲断面積を理論的に計算し、それに対する干渉効果の影響を調べた。本発表では、いくつかの原子核の結果について議論を行い、干渉効果が中性子過剰核でも重要になることを報告する。

The capture reaction can be divided into two parts, that is the compound and direct processes. For most stable nuclei, the compound process occupies a large part of the neutron capture cross section. However, it has been pointed out that the direct process comes to play a comparable role to the compound one at a low energy in light and neutron-rich nuclei, where the number of resonance state at the neutron threshold energy is relatively small. In addition, there is an interference term between the direct and compound processes. However, it is usually neglected for most nuclei, because either of the compound or the direct process is more important than the other, its contribution becomes negligible. However, some experiment data have given an implication of the existence of the interference effect, and Mengoni and Otsuka reported that the experimental results of capture cross section can be described by taking into account it. It is then natural as a next step to have a concern whether the interference effect comes to play a role for neutron-rich nuclei as well. We therefore calculate the neutron capture reaction for neutron-rich nuclei and study the interference effect on it. We will present some results for neutron-rich nuclei and the interference effect becomes important.

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