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遠藤 駿典; 安部 亮太*; 藤岡 宏之*; 猪野 隆*; 岩本 修; 岩本 信之; 河村 しほり*; 木村 敦; 北口 雅暁*; 小林 龍珠*; et al.
European Physical Journal A, 60(8), p.166_1 - 166_10, 2024/08
被引用回数:2 パーセンタイル:0.00(Physics, Nuclear)Measurements of 
-ray circular polarization emitted from neutron capture reactions provide valuable information for nuclear physics studies. The spin and parity of excited states can be determined by measuring the circular polarization from polarized neutron capture reactions. Furthermore, the -ray circular polarization in a neutron capture resonance is crucial for studying the enhancement effect of parity nonconservation in compound nuclei. The -ray circular polarization can be measured using a polarimeter based on magnetic Compton scattering. A polarimeter was constructed, and its performance indicators were evaluated using a circularly polarized -ray beam. Furthermore, as a demonstration, the -ray circular polarization was measured in 
S(n,)
S reactions with polarized neutrons.
熊田 高之; 阿久津 和宏*; 大石 一城*; 森川 利明*; 河村 幸彦*; 佐原 雅恵*; 鈴木 淳市*; 三浦 大輔*; 鳥飼 直也*
J-PARC 20-02; J-PARC MLF Annual Report 2019, p.38 - 40, 2021/00
Neutron reflectivity (NR) is used to determine the nanostructure of surfaces and interfaces of thin film samples. NR has an ad-vantage over X-ray reflectivity for measuring deeply-buried interface of materials. However, it is difficult to determine the structure of complex multiple surface and interfaces of the thin film from a single reflectivity curve. To overcome the problem, we developed a new technique called spin-contrast-variation neutron reflectometry (SCV-NR), which utilizes the property that coherent polarized-neutron scattering length of a proton remarkably varies as a function of the proton polarization, PH, against the neutron polarization direction. As PH increases, the scattering length density (SLD) of each layer proportionally increases with the number density of protons, resulting in the variation of NR curves. The structure of multiple surface and interfaces of a thin film can be determined from the multiple curves.
舩橋 達
Nuclear Instruments and Methods, 137(1), p.99 - 101, 1976/01
単色性の非常に高い偏極中性子線を得る新しい方法を提案する。中性子の運動エネルギーは、磁場中でスピンの方向に依存して変化する。この変化は、ゼーマンエネルギーに対応するもので、普通の磁場中では非常に小さいが、運動エネルギーの分裂は、後方散乱型中性子単色器-分析器系によって分解し得る。シリコンの完全結晶を単色器および分析器の例にとって現実性の考察を述べる。
遠藤 駿典; 木村 敦; 清水 裕彦*; 藤岡 宏之*; 井出 郁央*; 酒井 健二; 亀田 健斗*; 北口 雅暁*; 飯沼 昌隆*; 河村 しほり*; et al.
no journal, ,
The large enhancement of parity-violation of the weak interaction was found in nuclear reactions for several nuclei. The enhancement is explained as the mixing of parity-unfavored partial amplitudes in the entrance channel of the compound sates, s-p mixing. It is proposed that the time-reversal symmetry violation is also enhanced in compound nuclei by the same mechanism. We are preparing the time-reversal violation search based on this new approach. The time-reversal violation can be obtained by measuring the neutron spin behavior in compound nuclei using polarized neutron beam and polarized nuclear target. In parallel with the development of these instruments, we conduct precise measurements of compound nuclear reactions in J-PARC MLF. The enhancement factor of time-reversal violation can be estimated by measuring the angular correlation terms of (n,) reactions according to the s-p mixing theory. We have measured the several correlation terms for several nuclei, such as 
La, 
Sn, and 
Xe, which are candidates of the target nuclei in the time-reversal violation search. Furthermore, we have already started the experiments with the polarized neutron beam and the polarized target. In this presentation, we will introduce the current status of the preparation for the search of time-reversal violation.
