A Prototype RICH Detector Using Multi-Anode Photo Multiplier Tubes and Hybrid Photo-Diodes
E. Albrecht (2), G. Barber (4), J.H. Bibby (5), N.H. Brook (3), G., Doucas(5), A. Duane(4), S. Easo(3), L. Eklund(2), M. French(6), V. Gibson(1),, T. Gys(2), A.W. Halley(2,3), N. Harnew(5), M. John(4), D. Piedigrossi(2), J., Rademacker(5), B. Simmons(4), N. Smale(5)
TL;DR
This paper evaluates a prototype RICH detector with hybrid photo-diodes and multi-anode PMTs, demonstrating that its performance aligns with simulations and meets LHCb experiment requirements.
Contribution
It presents a novel prototype RICH detector using hybrid photo-diodes and multi-anode PMTs, with performance validation against simulations for high-energy physics applications.
Findings
Cherenkov angle precision matches simulations
Photoelectron yield meets LHCb requirements
Performance with CF4 and air radiators is validated
Abstract
The performance of a prototype Ring Imaging Cherenkov Detector is studied using a charged particle beam. The detector performance, using CF4 and air as radiators, is described. Cherenkov angle precision and photoelectron yield using hybrid photo-diodes and multi-anode PMTs agree with simulations and are assessed in terms of the requirements of the LHCb experiment.
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