低温p型锗探测器用于低质量暗物质搜索的低阈值探测器研制

IF 1.1 3区 物理与天体物理 Q4 PHYSICS, APPLIED
Mathbar Singh Raut, Dongming Mei, Sanjay Bhattarai, Rajendra Panth, Kyler Kooi, Hao Mei, Guojian Wang
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引用次数: 0

摘要

本研究通过分析5.2 K p型锗探测器中的电荷输运,探讨了提高低质量暗物质探测灵敏度的新技术。为了实现低阈值探测器,精确计算偶极子和簇偶极子态的结合能,以及受电场影响的捕获截面是必不可少的。探测器工作在两种模式下:77 K耗尽后冷却到5.2 K和在不同的偏置电压下直接冷却到5.2 K。我们的结果表明,第二种模式产生较低的结合能,并在不同的工作模式下显示出不同的电荷状态。值得注意的是,我们在零场测量的偶极子和簇偶极子态结合能分别为\(8.716\pm 0.435\) meV和\(6.138\pm 0.308\) meV。这些发现对未来用于探测低质量暗物质的低阈值探测器的开发具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Development of Low-Threshold Detectors for Low-Mass Dark Matter Searches with a p-Type Germanium Detector Operated at Cryogenic Temperature

Development of Low-Threshold Detectors for Low-Mass Dark Matter Searches with a p-Type Germanium Detector Operated at Cryogenic Temperature

This study investigates new technology for enhancing the sensitivity of low-mass dark matter detection by analyzing charge transport in a p-type germanium detector at 5.2 K. To achieve low-threshold detectors, precise calculations of the binding energies of dipole and cluster dipole states, as well as the cross sections of trapping affected by the electric field, are essential. The detector was operated in two modes: depleted at 77 K before cooling to 5.2 K and cooled directly to 5.2 K with various bias voltages. Our results indicate that the second mode produces lower binding energies and suggests different charge states under varying operating modes. Notably, our measurements of the dipole and cluster dipole state binding energies at zero fields were \(8.716\pm 0.435\) meV and \(6.138\pm 0.308\) meV, respectively. These findings have strong implications for the development of low-threshold detectors for detecting low-mass dark matter in the future.

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来源期刊
Journal of Low Temperature Physics
Journal of Low Temperature Physics 物理-物理:凝聚态物理
CiteScore
3.30
自引率
25.00%
发文量
245
审稿时长
1 months
期刊介绍: The Journal of Low Temperature Physics publishes original papers and review articles on all areas of low temperature physics and cryogenics, including theoretical and experimental contributions. Subject areas include: Quantum solids, liquids and gases; Superfluidity; Superconductivity; Condensed matter physics; Experimental techniques; The Journal encourages the submission of Rapid Communications and Special Issues.
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