High-precision branching ratio measurement and spin assignment implications for Ga62 superallowed β decay

arXiv: Nuclear Experiment Pub Date : 2020-11-07 DOI:10.1103/PhysRevC.102.054325

A. MacLean, A. Laffoley, C. Svensson, G. Ball, J. Leslie, C. Andreoiu, A. Babu, S. Bhattacharjee, H. Bidaman, V. Bildstein, C. Burbadge, M. Bowry, C. Cheng, D. Cross, A. Diaz-Varela, I. Dillmann, M. Dunlop, R. Dunlop, L. Evitts, P. Finlay, S. Gillespie, A. Garnsworthy, P. Garrett, E. Gopaul, C. Griffin, G. Grinyer, G. Hackman, J. Henderson, B. Jigmeddorj, K. Leach, E. Kassanda, J. McAfee, M. Moukaddam, C. Natzke, S. Nittala, B. Olaizola, J. Park, C. Paxman, J. Pore, C. Porzio, A. Radich, P. Ruotsalainen, Y. Saito, S. Sharma, J. Smallcombe, J. Smith, R. Sultana, J. Turko, J. Williams, D. Yates, T. Zidar

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引用次数: 1

Abstract

A high-precision branching ratio measurement for the superallowed Fermi $\beta^{+}$ emitter $^{62}$Ga was performed with the Gamma-Ray Infrastructure for Fundamental Investigations of Nuclei (GRIFFIN) spectrometer at the Isotope Separator and Accelerator (ISAC) radioactive ion beam facility at TRIUMF. The high efficiency of the GRIFFIN spectrometer allowed 63 $\gamma$-ray transitions, with intensities down to $\approx$1 part per million (ppm) per $^{62}$Ga $\beta^{+}$ decay, to be placed in the level scheme of the daughter nucleus $^{62}$Zn, establishing the superallowed $\beta$ branching ratio for $^{62}$Ga decay to be 99.8577$^{+0.0023}_{-0.0029}\%$, a factor of 4 more precise than the previous world average. For several cascades, $\gamma-\gamma$ angular correlation measurements were performed to assign spins and/or determine the mixing ratios of transitions. In particular, the spin of the 2.342 MeV excited state in the daughter nucleus $^{62}$Zn was definitively assigned as $J = 0$. This assignment resolves a discrepancy between previous measurements and has important implications for the isospin symmetry breaking correction, $\delta_{C1}$, in $^{62}$Ga superallowed Fermi $\beta$ decay.

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Ga62超允许β衰变的高精度分支比测量和自旋分配意义

利用氚同位素分离器和加速器(ISAC)放射性离子束设施的伽玛射线基础设施(GRIFFIN)光谱仪对超允许费米$\beta^{+}$发射器$^{62}$ Ga进行了高精度分支比测量。GRIFFIN光谱仪的高效率允许63次$\gamma$ -射线跃迁，强度低至$\approx$百万分之一(ppm) / $^{62}$ Ga $\beta^{+}$衰变，被放置在子核$^{62}$ Zn的能级方案中，建立了$^{62}$ Ga衰变的超允许$\beta$分支比为99.8577 $^{+0.0023}_{-0.0029}\%$，比以前的世界平均水平精确4倍。对于几个级联，$\gamma-\gamma$进行了角相关测量来分配自旋和/或确定过渡的混合比率。特别地，子核$^{62}$ Zn中2.342 MeV激发态的自旋被确定为$J = 0$。这一分配解决了先前测量之间的差异，并对$^{62}$ Ga超允许费米$\beta$衰变中的同位旋对称性破缺修正$\delta_{C1}$具有重要意义。

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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arXiv: Nuclear Experiment

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