Author:
Belyaev N,Cherry M L,Dachs F,Doronin S A,Filippov K,Fusco P,Gargano F,Konovalov S,Loparco F,Mascagna V,Mazziotta M N,Ponomarenko D,Prest M,Pyatiizbyantseva D,Rembser C,Romaniouk A,Savchenko A A,Schioppa E J,Sergeeva D Yu,Shulga E,Smirnov S,Smirnov Yu,Soldani M,Spinelli P,Strikhanov M,Teterin P,Tikhomirov V,Tishchenko A A,Vallazza E,Vorobev K,Zhukov K
Abstract
Abstract
Many modern and future accelerator and cosmic ray experiments require identification of particles with Lorentz γ-factor up to 104 and above. The only technique which reaches this range of Lorentz factors is based on the transition radiation detectors (TRD). This paper describes the development of a TRD based on straw proportional tubes. A prototype of such kind of detector was built and tested at the CERN SPS accelerator. Monte Carlo simulation model of the detector which matches well the experimental data was developed. This program was used for the simulation of a full-scale TRD for hadron identification at TeV energy scale.
Subject
General Physics and Astronomy
Cited by
3 articles.
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1. Transition radiation detectors for hadron separation in the forward direction of LHC experiments;Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment;2023-10
2. Extending the Lorentz factor range and sensitivity of transition radiation with compound radiators;Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment;2022-03
3. The photon yield efficiency study of transition radiators at E2 line of Beijing Test Beam Facility;Journal of Instrumentation;2021-08-01