On the limit of the accuracy of timе stamp at the detection of annihilation γ-quanta with a scintillation detector-Reference-Cited by-同舟云学术

On the limit of the accuracy of timе stamp at the detection of annihilation γ-quanta with a scintillation detector

Published:2021-05-25 Issue:2 Volume: Page:96-101
ISSN:2617-3999
Container-title:Journal of the Belarusian State University. Physics
language:
Short-container-title:Journal of the Belarusian State University. Physics

Author:

Korzhik Mikhail V.

Abstract

An influence of the various relaxation processes of the electronic excitations causing the scintillation in the crystalline compounds under ionising radiation is analysed. It was found that the intracenter relaxation of electronic excitations in the luminescence ion forms a physical limit for the time resolution of the scintillation detector. The limit of the time resolution, which can be provided when measuring the ionising radiation with a scintillation detector, has been established by simulation. A comparison of the time resolution limits for various errors by the electronic part of the ionising radiation detector is performed. It is shown that inorganic scintillation materials based on single crystals activated by cerium ions have a limit of 10 ps, while self-activated scintillators with low yield and short scintillation kinetics may show results not worse than 20 ps. It has been demonstrated that a further increase in the scintillation yield while keeping the short kinetics in self-activated materials can provide a better time resolution in comparison with Ce-activated materials in future detectors.

Publisher

Belarusian State University

Reference10 articles.

1. Arkhipova AA, Chaika VA, Gromysheva OV, editors. Lyuminestsentsiya i ee primenenie v narodnom khozyaistve. Sbornik materialov II nauchno-prakticheskogo seminara; 12 marta 2020 g.; Moskva, Rossiya [Luminescence and its application in the national economy. Proceedings of the 2nd scientific and practical seminar; 2020 March 12; Moscow, Russia]. Moscow: Kurchatovskii institute – IREA; 2020. 64 p. Russian.

2. Lecoq P, Gektin A, Korzhik M. Inorganic scintillators for detector systems: physical principles and crystal engineering. 2nd edition. Cham: Springer; 2017. 408 p. DOI: 10.1007/978-3-319-45522-8.

3. Korzhik M, Tamulaitis G, Vasil’ev AN. Physics of fast processes in scintillators. Cham: Springer; 2020. 250 p. DOI: 10.1007/ 978-3-030-21966-6.

4. LHC Experiments Committee. Technical proposal for a MIP timing detector in the CMS experiment phase 2 upgrade: CERNLHCC-2017-027/LHCC-P-009 [Internet]. Geneva: CERN; 2017 [cited 2020 November 5]. 98 p. Available from: https://cds.cern.ch/ record/2296612. (Technical proposal).

5. Nargelas S, Dosovitskiy G, Korzhik M, Tamulaitis G. Role of inter- and intraconfigurational transitions of Pr3+ ion in nonequilibrium carrier relaxation in garnet-type scintillators. Optical Materials. 2021;111:110676. DOI: 10.1016/j.optmat.2020.110676.

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