P-even andP-odd asymmetries inSn117in the vicinity of thepresonance atEp=1.33eV

IF 3.1 2区物理与天体物理 Q1 Physics and Astronomy

Physical Review C Pub Date : 2024-01-16 DOI:10.1103/physrevc.109.014614

L. E. Charón-García, L. Barrón-Palos, J. Curole, W. M. Snow, V. Gudkov (NOPTREX Collaboration)

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引用次数: 0

Abstract

A self-consistent description of angular correlations in neutron-induced reactions is required for quantitative analysis of parity violating (PV) and time-reversal invariance violating (TRIV) effects in neutron-nucleus scattering. The 1.33 eV

p

-wave compound resonance in

{}^{117}{Sn}

is one of the few

p

-wave resonances where enough measurements have been performed to allow a nontrivial test of the internal consistency of the theory. We present the results of a global analysis of the several different asymmetries and angular distribution measurements in (

n, γ

) reactions on the 1.33 eV

p

-wave resonance in

{}^{117}{Sn}

conducted over the last few decades. We show that the compound resonance mixing theory can give an internally consistent description of all observations made in this system to date within the experimental measurement errors. We also confirm the conclusions of previous analyses that a subthreshold resonance in

{}^{117}{Sn}

dominates correlations related to

s − p

mixing and discuss the implications of these results for future searches for TRIV in this system.

Abstract Image

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在 Ep=1.33eV 的共振附近，Sn117 中的 P-偶数和 P-偶数不对称现象

为了定量分析中子-核散射中的违反奇偶性（PV）和违反时间反演不变性（TRIV）效应，需要对中子诱发反应中的角相关性进行自洽描述。Sn117 中的 1.33 eV p 波复合共振是为数不多的 p 波共振之一，在这里已经进行了足够多的测量，可以对理论的内部一致性进行非简单的测试。我们介绍了对过去几十年来在 Sn117 中 1.33 eV p 波共振的（n,γ）反应中进行的几种不同的不对称和角分布测量结果的总体分析。我们的研究表明，复合共振混合理论可以在实验测量误差范围内，对迄今为止在该系统中的所有观测结果给出内部一致的描述。我们还证实了之前分析的结论，即 Sn117 中的阈下共振主导了与 s-p 混合相关的相关性，并讨论了这些结果对未来在该系统中寻找 TRIV 的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Physical Review C 物理-物理：核物理

CiteScore

5.70

自引率

35.50%

发文量

审稿时长

1-2 weeks

期刊介绍： Physical Review C (PRC) is a leading journal in theoretical and experimental nuclear physics, publishing more than two-thirds of the research literature in the field. PRC covers experimental and theoretical results in all aspects of nuclear physics, including: Nucleon-nucleon interaction, few-body systems Nuclear structure Nuclear reactions Relativistic nuclear collisions Hadronic physics and QCD Electroweak interaction, symmetries Nuclear astrophysics