The JUNO Calibration Strategy and Simulation

Kangfu Zhu, Qingmin Zhang
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Abstract

The Jiangmen Underground Neutrino Observatory (JUNO) is designed to primarily measure the neutrino Mass Ordering (MO) by detecting reactor anti-neutrinos via inverse beta decay. JUNO also has other rich physical potentials. Its Central Detector (CD), which is an acrylic sphere with a diameter of 35.4 m, filled by approximately 20 kton of liquid scintillator (LS), is equipped with large photomultipliers (18k for the CD + 2k for the Water Pool) and small photomultipliers (25,600) to measure the energy resolution of neutrinos with an unprecedented energy resolution of 3%/ E and an energy non-linearity better than 1%. Accordingly, a calibration complex, including Automatic Calibration Unit (ACU), Cable Loop System (CLS), Guide Tube Calibration System (GTCS) and Remotely Operated under-liquid-scintillator Vehicles (ROV), is designed to deliver multiple radioactive sources for the energy coverage of reactor neutrinos and CD full-volume. In this proceeding, the new design details and up-to-date progress about JUNO calibration system are presented.
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JUNO标定策略与仿真
江门地下中微子天文台(JUNO)主要是通过反β衰变探测反应堆反中微子来测量中微子的质量有序(MO)。朱诺还有其他丰富的物理潜力。它的中央探测器(CD)是一个直径35.4米的丙烯酸球体,填充了大约20千吨的液体闪烁体(LS),配备了大型光电倍增管(CD为18k,水池为2k)和小型光电倍增管(25,600)来测量中微子的能量分辨率,能量分辨率达到前所未有的3%/ E,能量非线性优于1%。因此,包括自动校准单元(ACU)、电缆回路系统(CLS)、导管校准系统(GTCS)和远程操作液下闪烁器车辆(ROV)在内的校准综合体设计用于提供多个放射源,以覆盖反应堆中微子和CD的全体积能量。本文介绍了JUNO标定系统的最新设计细节和最新进展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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