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一种用于测量液氙中闪烁和电离产额的双相氙时间投影室。

A dual-phase xenon TPC for scintillation and ionisation yield measurements in liquid xenon.

作者信息

Baudis Laura, Biondi Yanina, Capelli Chiara, Galloway Michelle, Kazama Shingo, Kish Alexander, Pakarha Payam, Piastra Francesco, Wulf Julien

机构信息

Department of Physics, University of Zürich, Winterthurerstrasse 190, 8057 Zurich, Switzerland.

出版信息

Eur Phys J C Part Fields. 2018;78(5):351. doi: 10.1140/epjc/s10052-018-5801-5. Epub 2018 Apr 30.

DOI:10.1140/epjc/s10052-018-5801-5
PMID:30996663
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6438493/
Abstract

A small-scale, two-phase (liquid/gas) xenon time projection chamber () was designed, constructed and is under operation at the University of Zürich. Its main purpose is to investigate the microphysics of particle interactions in liquid xenon at energies below 50 keV, which are relevant for rare event searches using xenon as target material. Here we describe in detail the detector, its associated infrastructure, and the signal identification algorithm developed for processing and analysing the data. We present the first characterisation of the new instrument with calibration data from an internal Kr source. The zero-field light yield is 15.0 and 14.0 photoelectrons/keV at 9.4 and 32.1 keV, respectively, and the corresponding values at an electron drift field of 1 kV/cm are 10.8 and 7.9 photoelectrons/keV. The charge yields at these energies are 28 and 31 electrons/keV, with the proportional scintillation yield of 24 photoelectrons per one electron extracted into the gas phase, and an electron lifetime of 200  s. The relative energy resolution, , is 11.9 and 5.8% at 9.4 and 32.1 keV, respectively using a linear combination of the scintillation and ionisation signals. We conclude with measurements of the electron drift velocity at various electric fields, and compare these to literature values.

摘要

苏黎世大学设计、建造并运行了一个小型的两相(液体/气体)氙时间投影室()。其主要目的是研究能量低于50 keV时液体氙中粒子相互作用的微观物理学,这对于使用氙作为靶材料的稀有事件搜索具有重要意义。在此,我们详细描述了该探测器、其相关的基础设施以及为处理和分析数据而开发的信号识别算法。我们展示了利用内部氪源的校准数据对这台新仪器进行的首次表征。零场光产额在9.4 keV和32.1 keV时分别为15.0和14.0光电子/keV,在1 kV/cm的电子漂移场下相应的值为10.8和7.9光电子/keV。这些能量下的电荷产额为28和31电子/keV,每一个提取到气相中的电子的比例闪烁产额为24光电子,电子寿命为200 s。利用闪烁和电离信号的线性组合,相对能量分辨率在9.4 keV和32.1 keV时分别为11.9%和5.8%。我们最后测量了不同电场下的电子漂移速度,并将这些结果与文献值进行了比较。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6a67/6438493/836a8c25303f/10052_2018_5801_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6a67/6438493/36c5933d0412/10052_2018_5801_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6a67/6438493/836a8c25303f/10052_2018_5801_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6a67/6438493/36c5933d0412/10052_2018_5801_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6a67/6438493/836a8c25303f/10052_2018_5801_Fig2_HTML.jpg

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