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Hauptverfasser: Mao, Zhu, Liu, Shasha, Cao, Ruike, Shao, Hengbin, Guo, Yaowei, Wang, Sirui, Zhang, Fuyudi, Zhang, Haoyan, Zhu, Tailin, Jiang, Yixi, Zhou, Hao, Xiang, Xin, Wang, Lei
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2512.14382
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author Mao, Zhu
Liu, Shasha
Cao, Ruike
Shao, Hengbin
Guo, Yaowei
Wang, Sirui
Zhang, Fuyudi
Zhang, Haoyan
Zhu, Tailin
Jiang, Yixi
Zhou, Hao
Xiang, Xin
Wang, Lei
author_facet Mao, Zhu
Liu, Shasha
Cao, Ruike
Shao, Hengbin
Guo, Yaowei
Wang, Sirui
Zhang, Fuyudi
Zhang, Haoyan
Zhu, Tailin
Jiang, Yixi
Zhou, Hao
Xiang, Xin
Wang, Lei
contents We present the design and characterization of a Cockcroft--Walton (CW) high-voltage (HV) system developed for deep-sea neutrino telescopes. The system provides independently adjustable bias voltages for 31 three-inch photomultiplier tubes (PMTs) housed in a hybrid Digital Optical Module (hDOM). We describe the system architecture, control logic, and laboratory test procedures, and report the combined PMT--base performance in terms of baseline stability, gain uniformity, and timing accuracy under conditions designed to emulate the deep-sea environment. Baseline measurements show low and stable electronic noise. Gain calibrations based on single-photoelectron spectra demonstrate that all PMTs can be tuned to a common nominal gain and remain stable over multi-day operation. Transit-time-spread measurements yield values below 1.8~ns (FWHM), consistent with manufacturer specifications. These results indicate that the CW-based HV system provides the stability and timing precision required for deep-sea multi-PMT optical modules.
format Preprint
id arxiv_https___arxiv_org_abs_2512_14382
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Design and Evaluation of a PMT High-Voltage system for Deepsea Neutrino Telescope
Mao, Zhu
Liu, Shasha
Cao, Ruike
Shao, Hengbin
Guo, Yaowei
Wang, Sirui
Zhang, Fuyudi
Zhang, Haoyan
Zhu, Tailin
Jiang, Yixi
Zhou, Hao
Xiang, Xin
Wang, Lei
High Energy Physics - Experiment
We present the design and characterization of a Cockcroft--Walton (CW) high-voltage (HV) system developed for deep-sea neutrino telescopes. The system provides independently adjustable bias voltages for 31 three-inch photomultiplier tubes (PMTs) housed in a hybrid Digital Optical Module (hDOM). We describe the system architecture, control logic, and laboratory test procedures, and report the combined PMT--base performance in terms of baseline stability, gain uniformity, and timing accuracy under conditions designed to emulate the deep-sea environment. Baseline measurements show low and stable electronic noise. Gain calibrations based on single-photoelectron spectra demonstrate that all PMTs can be tuned to a common nominal gain and remain stable over multi-day operation. Transit-time-spread measurements yield values below 1.8~ns (FWHM), consistent with manufacturer specifications. These results indicate that the CW-based HV system provides the stability and timing precision required for deep-sea multi-PMT optical modules.
title Design and Evaluation of a PMT High-Voltage system for Deepsea Neutrino Telescope
topic High Energy Physics - Experiment
url https://arxiv.org/abs/2512.14382