Ultra-low $Q_β$ value for the allowed decay of $^{110}$Ag$^m$ confirmed via mass measurements

J. Ruotsalainen, M. Stryjczyk, M. Ramalho, T. Eronen, Z. Ge, A. Kankainen, M. Mougeot, J. Suhonen
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Abstract

The mass of $^{109}$Ag isotope was measured with respect to $^{110}$Cd with the phase-imaging ion-cyclotron-resonance technique using the JYFLTRAP double Penning trap at the IGISOL facility. By combining this new result with the known spectroscopic information, the $Q_\beta$ value of $405(135)$ eV between the $6^+$ isomer of $^{110}$Ag and the $5^+_2$ state in $^{110}$Cd was determined. This is the lowest $Q_\beta$ for any allowed transition observed to date. The nuclear shell-model results were performed with the {\sc kshell} code employing the \textit{jj45pnb} interaction, and combined with the state-of-the-art atomic calculations. The theoretical partial half-life, $2.23^{+5.24}_{-1.28} \times 10^7$ years, and the resulting branching ratio, $3.07^{+4.16}_{-2.15} \times 10^{-8}$, combined with a viable production method, thermal-neutron capture on stable $^{109}$Ag, make $^{110}$Ag$^{m}$ as a promising candidate for future antineutrino mass measurement experiments.
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通过质量测量确认 $^{110}$Ag$^m$ 允许衰变的超低 $Q_β$ 值
在IGISOL设施的JYFLTRAP双阱中,利用相位成像离子-回旋共振技术测量了相对于^{110}$镉的$^{109}$镁同位素的质量。通过将这一新结果与已知的光谱信息相结合,确定了$^{110}$Ag的$6^+$异构体与$^{110}$Cd的$5^+_2$态之间的$Q_\beta$值为405(135)$ eV。这是迄今为止观测到的允许转变中最低的Q_\beta$。核壳模型的结果是利用textit{jj45pnb}相互作用的{\sc kshell}代码并结合最先进的原子计算得出的。理论部分半衰期为2.23^{+5.24}_{-1.28}\理论部分半衰期为 10^7$ 年的 2.23^{+5.24}_{-1.28} 倍,分支率为 3.07^{+4.16}_{-2.15} 倍。\10^{-8}$倍,再加上一种可行的生产方法--稳定的$^{109}$Ag上的热中子俘获,使得$^{110}$Ag$^{m}$成为未来反中微子质量测量实验的一个有希望的候选者。
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