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Main Authors: Barsuk, Sergey, Bezshyyko, Oleg, Boyarintseva, Ianina, Boyarintsev, Andrey, Breton, Dominique, Chanal, Hervé, Dubovik, Alexander M., Kotenko, Andrii, Hull, Giulia, Lefrançois, Jacques, Monteil, Stéphane, Schune, Marie-Hélène, Semkiv, Nazar, Tupitsyna, Irina, Yeresko, Mykhailo
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2312.07365
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author Barsuk, Sergey
Bezshyyko, Oleg
Boyarintseva, Ianina
Boyarintsev, Andrey
Breton, Dominique
Chanal, Hervé
Dubovik, Alexander M.
Kotenko, Andrii
Hull, Giulia
Lefrançois, Jacques
Monteil, Stéphane
Schune, Marie-Hélène
Semkiv, Nazar
Tupitsyna, Irina
Yeresko, Mykhailo
author_facet Barsuk, Sergey
Bezshyyko, Oleg
Boyarintseva, Ianina
Boyarintsev, Andrey
Breton, Dominique
Chanal, Hervé
Dubovik, Alexander M.
Kotenko, Andrii
Hull, Giulia
Lefrançois, Jacques
Monteil, Stéphane
Schune, Marie-Hélène
Semkiv, Nazar
Tupitsyna, Irina
Yeresko, Mykhailo
contents A novel type of calorimeter based on grains of inorganic scintillating crystal readout by wave length shifting fibers is proposed. The concept and main features as well as the prototype design are introduced and the first results obtained using cosmic rays are presented. The number of photo-electrons generated by cosmic rays muons in the prototype detector is estimated to be of the order of 10000 photo-electrons per GeV, validating the concept of this next-generation shashlik calorimeter.
format Preprint
id arxiv_https___arxiv_org_abs_2312_07365
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle First characterization of a novel grain calorimeter: the GRAiNITA prototype
Barsuk, Sergey
Bezshyyko, Oleg
Boyarintseva, Ianina
Boyarintsev, Andrey
Breton, Dominique
Chanal, Hervé
Dubovik, Alexander M.
Kotenko, Andrii
Hull, Giulia
Lefrançois, Jacques
Monteil, Stéphane
Schune, Marie-Hélène
Semkiv, Nazar
Tupitsyna, Irina
Yeresko, Mykhailo
Instrumentation and Detectors
High Energy Physics - Experiment
A novel type of calorimeter based on grains of inorganic scintillating crystal readout by wave length shifting fibers is proposed. The concept and main features as well as the prototype design are introduced and the first results obtained using cosmic rays are presented. The number of photo-electrons generated by cosmic rays muons in the prototype detector is estimated to be of the order of 10000 photo-electrons per GeV, validating the concept of this next-generation shashlik calorimeter.
title First characterization of a novel grain calorimeter: the GRAiNITA prototype
topic Instrumentation and Detectors
High Energy Physics - Experiment
url https://arxiv.org/abs/2312.07365