高像素化固体探测器的背景抑制

LOW RADIOACTIVITY TECHNIQUES 2022 (LRT 2022): Proceedings of the 8th International Workshop on Low Radioactivity Techniques Pub Date : 2022-12-09 DOI:10.1063/5.0162136

A. Chavarria

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引用次数: 0

摘要

高像素固态探测器在识别和抑制自然放射性背景方面提供了出色的能力。我们提出了为DAMIC实验开发的背景识别策略，该实验使用硅电荷耦合器件来搜索暗物质。DAMIC已经证明了从硅靶中的$^{32}$Si， $^{238}$U和$^{232}$Th衰变链中解结和测量每个$\beta$发射器的活度的能力。Selena中微子实验将采用类似的策略，它将使用混合非晶$^{82}$Se/CMOS成像仪来执行$\beta\beta$衰变和太阳中微子的光谱。我们提出了建议的实验策略，使赛琳娜在100吨的暴露中达到零背景。

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Background rejection in highly pixelated solid-state detectors

Highly pixelated solid-state detectors offer outstanding capabilities in the identification and suppression of backgrounds from natural radioactivity. We present the background-identification strategies developed for the DAMIC experiment, which employs silicon charge-coupled devices to search for dark matter. DAMIC has demonstrated the capability to disentangle and measure the activities of every $\beta$ emitter from the $^{32}$Si, $^{238}$U and $^{232}$Th decay chains in the silicon target. Similar strategies will be adopted by the Selena Neutrino Experiment, which will employ hybrid amorphous $^{82}$Se/CMOS imagers to perform spectroscopy of $\beta\beta$ decay and solar neutrinos. We present the proposed experimental strategy for Selena to achieve zero-background in a 100-ton-year exposure.

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LOW RADIOACTIVITY TECHNIQUES 2022 (LRT 2022): Proceedings of the 8th International Workshop on Low Radioactivity Techniques

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