ProtoDUNE-SP的电荷响应与能量标定

International Workshop on Partial Wave Analyses and Advanced Tools for Hadron Spectroscopy, Bristol, England, 08/10-08/14/2020 Pub Date : 2020-08-06 DOI:10.2172/1648537

Wanwei Wu, L. Uboldi, M. Wang

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引用次数: 0

摘要

CERN中微子平台上的ProtoDUNE-SP是深地下中微子实验(DUNE)中远探测器的测试平台液氩时间投影室(LArTPC)。空间电荷效应、电负性杂质引起的衰减、扩散和电子增益变化导致LArTPC内单位长度电荷沉积(dQ/dx)的不均匀性。利用实测电场图对空间电荷效应进行校正，利用纯度监测数据对衰减进行校正。宇宙射线介子穿过阴极的样品被用来校准探测器的响应，以获得均匀的dQ/dx随空间和时间的变化。使用宇宙射线停止介子，它具有众所周知的单位长度的能量损失(dE/dx)，确定了绝对能量尺度。这些校正因子被上传到数据库，以供进一步的物理分析使用。

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Charge response and energy calibration of ProtoDUNE-SP

ProtoDUNE-SP at the CERN Neutrino Platform is a test bed liquid argon time projection chamber (LArTPC) for the far-detector in the Deep Underground Neutrino Experiment (DUNE). Space charge effects, attenuation due to electronegative impurities, diffusion, and electronics gain variations cause nonuniformities in charge deposition per unit length (dQ/dx) within a LArTPC. Corrections for space charge effects with measured electric-field maps and attenuation with purity-monitor data were applied. A sample of cosmic-ray muons crossing the cathode is used to calibrate the detector response to get a uniform dQ/dx over space and time. Using cosmic-ray stopping muons, which have a well-known energy loss per unit length (dE/dx), the absolute energy scale was determined. These calibration factors were uploaded to a database for use in further physics analysis.

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International Workshop on Partial Wave Analyses and Advanced Tools for Hadron Spectroscopy, Bristol, England, 08/10-08/14/2020

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