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Main Authors: Yu, Tao, Ning, Yunsong, Yuan, Yi, Zhao, Shihan, Qi, Songran, Sun, Minchen, Li, Yuye, Liu, Zhirui, Bai, Aiyu, Liu, Hesheng, Lin, Yibo, Tuo, Geng, Chan, Ting On, Zhou, Zhou, Chen, Yu, Tang, Jian
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.19777
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author Yu, Tao
Ning, Yunsong
Yuan, Yi
Zhao, Shihan
Qi, Songran
Sun, Minchen
Li, Yuye
Liu, Zhirui
Bai, Aiyu
Liu, Hesheng
Lin, Yibo
Tuo, Geng
Chan, Ting On
Zhou, Zhou
Chen, Yu
Chen, Yu
Tang, Jian
author_facet Yu, Tao
Ning, Yunsong
Yuan, Yi
Zhao, Shihan
Qi, Songran
Sun, Minchen
Li, Yuye
Liu, Zhirui
Bai, Aiyu
Liu, Hesheng
Lin, Yibo
Tuo, Geng
Chan, Ting On
Zhou, Zhou
Chen, Yu
Chen, Yu
Tang, Jian
contents Muography, traditionally recognized as a potent instrument for imaging the internal structure of gigantic objects, has initialized various interdisciplinary applications. As the financial and labor costs of muography detector development hinder their massive applications, we develop a novel muon detector called MuGrid by coupling a monolithic plastic scintillator with the light guide array in order to achieve competitive spatial resolution while substantially reducing production costs. For a prototype detector in 30 cm $\times$ 30 cm, the intrinsic spatial resolution has been optimized toward a millimeter scale. An outdoor field muography experiment was conducted to monitor two buildings for validation purposes. The test successfully resolved the geometric influence of architectural features based on the attenuation of muon flux in a good agreement between experimental results and the simulation prediction.
format Preprint
id arxiv_https___arxiv_org_abs_2505_19777
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle MuGrid-v2: A novel scintillator detector for multidisciplinary applications
Yu, Tao
Ning, Yunsong
Yuan, Yi
Zhao, Shihan
Qi, Songran
Sun, Minchen
Li, Yuye
Liu, Zhirui
Bai, Aiyu
Liu, Hesheng
Lin, Yibo
Tuo, Geng
Chan, Ting On
Zhou, Zhou
Chen, Yu
Chen, Yu
Tang, Jian
Instrumentation and Detectors
High Energy Physics - Experiment
Muography, traditionally recognized as a potent instrument for imaging the internal structure of gigantic objects, has initialized various interdisciplinary applications. As the financial and labor costs of muography detector development hinder their massive applications, we develop a novel muon detector called MuGrid by coupling a monolithic plastic scintillator with the light guide array in order to achieve competitive spatial resolution while substantially reducing production costs. For a prototype detector in 30 cm $\times$ 30 cm, the intrinsic spatial resolution has been optimized toward a millimeter scale. An outdoor field muography experiment was conducted to monitor two buildings for validation purposes. The test successfully resolved the geometric influence of architectural features based on the attenuation of muon flux in a good agreement between experimental results and the simulation prediction.
title MuGrid-v2: A novel scintillator detector for multidisciplinary applications
topic Instrumentation and Detectors
High Energy Physics - Experiment
url https://arxiv.org/abs/2505.19777