LZ氡辐射技术与测量

LOW RADIOACTIVITY TECHNIQUES 2022 (LRT 2022): Proceedings of the 8th International Workshop on Low Radioactivity Techniques Pub Date : 2022-11-21 DOI:10.1063/5.0162639

N. Chott, R. Schnee

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引用次数: 2

摘要

在LUX-ZEPLIN (LZ)实验感兴趣的WIMP区域，氡辐射预计占电子反冲背景的50%以上。为了减少探测器体积内的氡量，通过广泛的筛选活动，选择了具有低放射性含量的材料用于LZ建设。SD Mines的氡辐射系统是LZ建设期间用于筛选材料的四个辐射设施之一。SD Mines还采用了便携式氡收集系统，用于太大或太脆弱而无法移动到氡排放设施的设备。该便携式系统用于在探测器构建的各个阶段对内部低温恒温器容器进行原位分析，从而推断钛低温恒温器是重要的氡辐射源。对$^{228}$Th源的测定证实，它的$^{222}$Rn辐射足够低，可以使用，并且在室温下，$^{220}$Rn的14%从源发出。

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Radon emanation techniques and measurements for LZ

Radon emanation was projected to account for $>50$% of the electron recoil background in the WIMP region of interest for the LUX-ZEPLIN (LZ) experiment. To mitigate the amount of radon inside the detector volume, materials with inherently low radioactivity content were selected for LZ construction through an extensive screening campaign. The SD Mines radon emanation system was one of four emanation facilities utilized to screen materials during construction of LZ. SD Mines also employed a portable radon collection system for equipment too large or delicate to move to a radon emanation facility. This portable system was used to assay the Inner Cryostat Vessel in-situ at various stages of detector construction, resulting in the inference that the titanium cryostat is the source of significant radon emanation. Assays of a $^{228}$Th source confirmed that its $^{222}$Rn emanation is low enough for it to be used, and that 14% of the $^{220}$Rn emanates from the source at room temperature.

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

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