Constraining the axial-vector X17 interpretation with 12C data

IF 4.3 2区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS

Physics Letters B Pub Date : 2024-09-16 DOI:10.1016/j.physletb.2024.139031

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引用次数: 0

Abstract

Recent findings of an unexpected, narrow resonance in the $e^{+} e^{-}$ decay spectra of excited states of ⁸Be, ⁴He and ¹²C by the ATOMKI collaboration have received considerable experimental and theoretical attention, whereby a new, 17-MeV vector-like or axial-vector-like boson termed X17 was conjectured as an explanation of the anomaly. Further analysis of all existing constraints disfavors a vector X17 scenario. For a similar analysis of the axial-vector scenario, a calculation of the reduced matrix element of a spin-dipole operator between the excited nuclear state ¹²C(17.23) and the carbon ground state is required. In the present work, we compute the aforementioned reduced matrix element under the assumption that the state ¹²C(17.23) is well represented by the $2 s_{1 / 2} 1 p_{3 / 2}^{- 1}$ particle-hole shell-model excitation of the ground state, as supported by experimental data. Within such a framework, our results indicate that, like the vector scenario, the axial-vector interpretation of X17 shows strong tensions with the other existing constraints on the nucleon coupling of a conjectured X17.

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用 12C 数据限制轴向矢量 X17 的解释

最近，ATOMKI 合作小组在 8Be、4He 和 12C 的激发态 e+e- 衰变谱图中发现了一种意想不到的窄共振，这引起了实验和理论界的极大关注。对所有现有约束条件的进一步分析并不支持矢量 X17 方案。为了对轴向矢量方案进行类似的分析，需要计算激发核态 12C(17.23)和碳基态之间自旋-偶极子算子的还原矩阵元素。在本研究中，我们假设 12C(17.23)态由基态的 2s1/21p3/2-1 粒子-空穴壳模型激发所很好地代表，并得到了实验数据的支持，在此假设下计算了上述还原矩阵元素。在这样一个框架内，我们的结果表明，与矢量方案一样，X17 的轴向矢量解释与其他现有的关于猜想 X17 的核子耦合的约束条件显示出强烈的紧张关系。

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

Physics Letters B 物理-物理：综合

CiteScore

9.10

自引率

6.80%

发文量

647

审稿时长

3 months

期刊介绍： Physics Letters B ensures the rapid publication of important new results in particle physics, nuclear physics and cosmology. Specialized editors are responsible for contributions in experimental nuclear physics, theoretical nuclear physics, experimental high-energy physics, theoretical high-energy physics, and astrophysics.