$^{61}$Cr是通向N = 40反转岛的大门

arXiv - PHYS - Nuclear Theory Pub Date : 2024-09-11 DOI:arxiv-2409.07324

L. Lalanne, M. Athanasakis-Kaklamanakis, D. D. Dao, Á. Koszorús, Y. C. Liu, R. Mancheva, F. Nowacki, J. Reilly, C. Bernerd, K. Chrysalidis, T. E. Cocolios, R. P. de Groote, K. T. Flanagan, R. F. Garcia Ruiz, D. Hanstorp, R. Heinke, M. Heines, P. Lassegues, K. Mack, B. A. Marsh, A. McGlone, K. M. Lynch, G. Neyens, B. van den Borne, R. Van Duyse, X. F. Yang, J. Wessolek

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引用次数: 0

摘要

本文报告了对 $^{61}$Cr 的基态自旋和核磁偶极矩的测量。放射性离子束是在欧洲核子研究中心-ISOLDE设施中产生的，并利用CRIS仪器的高分辨率共振化激光光谱进行了探测。目前的地面态针测量值$I=\frac{1}{2}$，不同于之前采用的$I=(\frac{5}{2})$，对解释该区域现有的β衰变数据和核结构具有重要影响。我们用最先进的大尺度壳模型和离散-非正交壳模型计算解释了$^{61}$Cr的结构和形状。从测量到的磁偶极矩$\mu(^{61}$Cr$)=+0.539(7)~m\mu_N$和理论结果来看，它的构型是由2个粒子-2个空穴中子猝发和一个未成对的1p_{1/2}$中子驱动的。这就确立了$N=40$反转岛（IoI）的西部边界，其特征是4粒子-4空穴中子成分。我们讨论了在 $N=40$ 反转岛入口处作为量子相变的铬同位素链的形状演变。

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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$^{61}$Cr as a Doorway to the N = 40 Island of Inversion

This paper reports on the measurement of the ground-state spin and nuclear magnetic dipole moment of $^{61}$Cr. The radioactive ion beam was produced at the CERN-ISOLDE facility and was probed using high-resolution resonance ionization laser spectroscopy with the CRIS apparatus. The present ground-state spin measurement $I = \frac{1}{2}$, differing from the previously adopted $I =(\frac{5}{2})$, has significant consequences on the interpretation of existing beta decay data and nuclear structure in the region. The structure and shape of $^{61}$Cr is interpreted with state-of-the-art Large-Scale Shell Model and Discrete-Non-Orthogonal Shell Model calculations. From the measured magnetic dipole moment $\mu(^{61}$Cr$)=+0.539(7)~\mu_N$ and the theoretical findings, its configuration is understood to be driven by 2 particle - 2 hole neutron excitations with an unpaired $1p_{1/2}$ neutron. This establishes the western border of the $N=40$ Island Of Inversion (IoI), characterized by 4 particle - 4 hole neutron components. We discuss the shape evolution along the Cr isotopic chain as a quantum phase transition at the entrance of the $N=40$ IoI.

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arXiv - PHYS - Nuclear Theory

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