Precise Measurement of $^{216}$Po Half-life with Exact Parent-daughter Pairing in PandaX-4T

PandaX Collaboration: Chenxiang Li; Zihao Bo; Wei Chen; Xun Chen; Yunhua Chen; Chen Cheng; Xiangyi Cui; Manna Deng; Yingjie Fan; Deqing Fang; Xuanye Fu; Zhixing Gao; Yujie Ge; Lisheng Geng; Karl Giboni; Xunan Guo; Xuyuan Guo; Zichao Guo; Chencheng Han; Ke Han; Changda He; Jinrong He; Houqi Huang; Junting Huang; Yule Huang; Ruquan Hou; Xiangdong Ji; Yonglin Ju; Xiaorun Lan; Jiafu Li; Mingchuan Li; Peiyuan Li; Shuaijie Li; Tao Li; Yangdong Li; Zhiyuan Li; Qing Lin; Jianglai Liu; Yuanchun Liu; Congcong Lu; Xiaoying Lu; Lingyin Luo; Yunyang Luo; Yugang Ma; Yajun Mao; Yue Meng; Binyu Pang; Ningchun Qi; Zhicheng Qian; Xiangxiang Ren Dong Shan; Xiaofeng Shang; Xiyuan Shao; Guofang Shen; Manbin Shen; Wenliang Sun; Xuyan Sun; Yi Tao; Yueqiang Tian; Yuxin Tian; Anqing Wang; Guanbo Wang; Hao Wang; Haoyu Wang; Jiamin Wang; Lei Wang; Meng Wang; Qiuhong Wang; Shaobo Wang; Shibo Wang; Siguang Wang; Wei Wang; Xu Wang; Zhou Wang; Yuehuan Wei; Weihao Wu; Yuan Wu; Mengjiao Xiao; Xiang Xiao; Kaizhi Xiong; Jianqin Xu; Yifan Xu; Shunyu Yao; Binbin Yan; Xiyu Yan; Yong Yang; Peihua Ye; Chunxu Yu; Ying Yuan; Zhe Yuan; Youhui Yun; Xinning Zeng; Minzhen Zhang; Peng Zhang; Shibo Zhang; Siyuan Zhang; Shu Zhang; Tao Zhang; Wei Zhang; Yang Zhang; Yingxin Zhang; Yuanyuan Zhang; Li Zhao; Kangkang Zhao; Jifang Zhou; Jiaxu Zhou; Jiayi Zhou; Ning Zhou; Xiaopeng Zhou; Zhizhen Zhou; and Chenhui Zhu

arXiv:2507.13241·nucl-ex·July 18, 2025

Precise Measurement of $^{216}$Po Half-life with Exact Parent-daughter Pairing in PandaX-4T

PandaX Collaboration: Chenxiang Li, Zihao Bo, Wei Chen, Xun Chen, Yunhua Chen, Chen Cheng, Xiangyi Cui, Manna Deng, Yingjie Fan, Deqing Fang, Xuanye Fu, Zhixing Gao, Yujie Ge, Lisheng Geng, Karl Giboni, Xunan Guo, Xuyuan Guo, Zichao Guo, Chencheng Han, Ke Han, Changda He

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TL;DR

This paper presents a highly precise measurement of the $^{216}$Po half-life using the PandaX-4T liquid xenon detector, leveraging 5D decay information for exact parent-daughter pairing, achieving the most accurate result to date.

Contribution

The study introduces a novel 5D decay event pairing method in a xenon TPC, significantly improving the precision of $^{216}$Po half-life measurement.

Findings

01

Measured $^{216}$Po half-life as 143.7±0.5 ms

02

Achieved the most precise $^{216}$Po half-life to date

03

Demonstrated the effectiveness of 5D calorimetry and pairing techniques

Abstract

We report a precise measurement of $^{216} Po$ half-life using the PandaX-4T liquid xenon time projection chamber (TPC). $^{220} Rn$ , emanating from a $^{228} Th$ calibration source, is injected to the detector and undergoes successive $α$ decays, first to $^{216} Po$ and then to $^{212} Pb$ . PandaX-4T detector measures the 5-dimensional (5D) information of each decay, including time, energy, and 3-dimensional positions. Therefore, we can identify the $^{220} Rn$ and $^{216} Po$ decay events and pair them exactly to extract the lifetime of each $^{216} Po$ . With a large data set and high-precision $^{220}$ Rn- $^{216}$ Po pairing technique, we measure the $^{216} Po$ half-life to be $143.7 \pm 0.5$ ms, which is the most precise result to date and agrees with previously published values. The leading precision of this measurement demonstrates the…

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Taxonomy

TopicsNuclear physics research studies · Particle physics theoretical and experimental studies · Quantum Chromodynamics and Particle Interactions