Picosecond timing of charged particles using the TORCH detector

Maria Flavia Cicala; Srishti Bhasin; Thomas Blake; Nick H. Brook,; Thomas Conneely; David Cussans; Maarten W. U. van Dijk; Roger Forty,; Christoph Frei; Emmy P. M. Gabriel; Rui Gao; Timothy Gershon; Thierry Gys,; Thomas Hadavizadeh; Thomas Henry Hancock; Neville Harnew; Thomas Jones,; Michal Kreps; James Milnes; Didier Piedigrossi; Jonas Rademacker; Jennifer; Clare Smallwood

arXiv:2203.13774·physics.ins-det·March 28, 2022

Picosecond timing of charged particles using the TORCH detector

Maria Flavia Cicala, Srishti Bhasin, Thomas Blake, Nick H. Brook,, Thomas Conneely, David Cussans, Maarten W. U. van Dijk, Roger Forty,, Christoph Frei, Emmy P. M. Gabriel, Rui Gao, Timothy Gershon, Thierry Gys,, Thomas Hadavizadeh, Thomas Henry Hancock, Neville Harnew

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TL;DR

The paper presents the development and testing of the TORCH detector, a high-precision time-of-flight system using Cherenkov photons and MCP-PMTs to identify charged hadrons with 70-100ps timing resolution.

Contribution

It introduces a novel large-area ToF detector with MCP-PMTs achieving near the target timing resolution of 50-100ps for charged particle identification.

Findings

01

Achieved a timing resolution of 70-100ps in beam tests.

02

Demonstrated laboratory timing resolution of about 50ps.

03

Validated the detector concept through laboratory and beam experiments.

Abstract

TORCH is a large-area, high-precision time-of-flight (ToF) detector designed to provide charged-particle identification in the 2-20 GeV $/ c$ momentum range. Prompt Cherenkov photons emitted by charged hadrons as they traverse a 10mm quartz radiator are propagated to the periphery of the detector, where they are focused onto an array of micro-channel plate photomultiplier tubes (MCP-PMTs). The position and arrival times of the photons are used to infer the particles' time of entry in the radiator, to identify hadrons based on their ToF. The MCP-PMTs were developed with an industrial partner to satisfy the stringent requirements of the TORCH detector. The requirements include a finely segmented anode, excellent time resolution, and a long lifetime. Over an approximately 10m flight distance, the difference in ToF between a kaon and a pion with 10GeV $/ c$ momentum is 35ps, leading to a…

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Taxonomy

TopicsRadiation Detection and Scintillator Technologies · Medical Imaging Techniques and Applications · Atomic and Subatomic Physics Research