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Main Authors: Wakata, Maki, Akamatsu, Shoei, Fujiie, Takuhiro, Furuyama, Taisei, Hara, Lisa, Ishikawa, Yumi, Ito, Tadashi, Kikuchi, Takahiro, Mibe, Tsutomu, Ozaki, Sachi, Yokomizo, Mitsuhiko, Murata, Jiro
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2406.06854
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author Wakata, Maki
Akamatsu, Shoei
Fujiie, Takuhiro
Furuyama, Taisei
Hara, Lisa
Ishikawa, Yumi
Ito, Tadashi
Kikuchi, Takahiro
Mibe, Tsutomu
Ozaki, Sachi
Yokomizo, Mitsuhiko
Murata, Jiro
author_facet Wakata, Maki
Akamatsu, Shoei
Fujiie, Takuhiro
Furuyama, Taisei
Hara, Lisa
Ishikawa, Yumi
Ito, Tadashi
Kikuchi, Takahiro
Mibe, Tsutomu
Ozaki, Sachi
Yokomizo, Mitsuhiko
Murata, Jiro
contents This study developed a new current-readout technique capable of handling measurements with high count rates reaching 1 Gcps. By directly capturing the output current of a photomultiplier as a digitized waveform, we estimated event rates, overcoming the limitations imposed by pulse pileup constraints and deadtimes. This innovative method was applied to a muon spin rotation/relaxation/resonance experiment at the Japan Proton Accelerator Research Complex, demonstrating its anticipated performance. Furthermore, we explored methods for estimating statistical uncertainty and investigated potential applications in analog-logic OR/AND gates. Overall, our findings reveal that the developed technique opens up avenues for the development of future non-binary logic circuits operating based on n-adic numbers.
format Preprint
id arxiv_https___arxiv_org_abs_2406_06854
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Current-readout technique for ultra-high-rate experiments
Wakata, Maki
Akamatsu, Shoei
Fujiie, Takuhiro
Furuyama, Taisei
Hara, Lisa
Ishikawa, Yumi
Ito, Tadashi
Kikuchi, Takahiro
Mibe, Tsutomu
Ozaki, Sachi
Yokomizo, Mitsuhiko
Murata, Jiro
Instrumentation and Detectors
High Energy Physics - Experiment
This study developed a new current-readout technique capable of handling measurements with high count rates reaching 1 Gcps. By directly capturing the output current of a photomultiplier as a digitized waveform, we estimated event rates, overcoming the limitations imposed by pulse pileup constraints and deadtimes. This innovative method was applied to a muon spin rotation/relaxation/resonance experiment at the Japan Proton Accelerator Research Complex, demonstrating its anticipated performance. Furthermore, we explored methods for estimating statistical uncertainty and investigated potential applications in analog-logic OR/AND gates. Overall, our findings reveal that the developed technique opens up avenues for the development of future non-binary logic circuits operating based on n-adic numbers.
title Current-readout technique for ultra-high-rate experiments
topic Instrumentation and Detectors
High Energy Physics - Experiment
url https://arxiv.org/abs/2406.06854