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Main Authors: Guarise, Marco, Andreotti, Mirco, Balboni, Anna, Calabrese, Roberto, Casazza, Denise, Ramusino, Angelo Cotta, Corallo, Annalea, Chiozzi, Stefano, D'Amico, Riccardo, Fiorini, Massimiliano, Giammaria, Tommaso, Luppi, Eleonora, Pierini, Lorenzo, Tomassetti, Luca
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2405.15922
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author Guarise, Marco
Andreotti, Mirco
Balboni, Anna
Calabrese, Roberto
Casazza, Denise
Ramusino, Angelo Cotta
Corallo, Annalea
Chiozzi, Stefano
D'Amico, Riccardo
Fiorini, Massimiliano
Giammaria, Tommaso
Luppi, Eleonora
Pierini, Lorenzo
Tomassetti, Luca
author_facet Guarise, Marco
Andreotti, Mirco
Balboni, Anna
Calabrese, Roberto
Casazza, Denise
Ramusino, Angelo Cotta
Corallo, Annalea
Chiozzi, Stefano
D'Amico, Riccardo
Fiorini, Massimiliano
Giammaria, Tommaso
Luppi, Eleonora
Pierini, Lorenzo
Tomassetti, Luca
contents Burst effect of Silicon Photomultiplier (SiPM) at cryogenic temperatures have been discovered few years ago looking at the dark count rate of SiPMs at liquid nitrogen temperatures. Bursts are trains of single signals that happen randomly and are clearly distinguishable from the primary DCR and correlated noise because of their particular time distribution. In this article we describe a detailed study related to both the external causes that triggers bursts and to the phenomenon, internal to the sensor, that produces this dark signals. We related the burst occurrence to the luminescence produced by some trapping centers in the SiPMs when they are excited by ionizing radiation that impinges on the sensor.
format Preprint
id arxiv_https___arxiv_org_abs_2405_15922
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Investigation of the burst phenomenon in SiPMs at liquid nitrogen temperature
Guarise, Marco
Andreotti, Mirco
Balboni, Anna
Calabrese, Roberto
Casazza, Denise
Ramusino, Angelo Cotta
Corallo, Annalea
Chiozzi, Stefano
D'Amico, Riccardo
Fiorini, Massimiliano
Giammaria, Tommaso
Luppi, Eleonora
Pierini, Lorenzo
Tomassetti, Luca
High Energy Physics - Experiment
Instrumentation and Detectors
Burst effect of Silicon Photomultiplier (SiPM) at cryogenic temperatures have been discovered few years ago looking at the dark count rate of SiPMs at liquid nitrogen temperatures. Bursts are trains of single signals that happen randomly and are clearly distinguishable from the primary DCR and correlated noise because of their particular time distribution. In this article we describe a detailed study related to both the external causes that triggers bursts and to the phenomenon, internal to the sensor, that produces this dark signals. We related the burst occurrence to the luminescence produced by some trapping centers in the SiPMs when they are excited by ionizing radiation that impinges on the sensor.
title Investigation of the burst phenomenon in SiPMs at liquid nitrogen temperature
topic High Energy Physics - Experiment
Instrumentation and Detectors
url https://arxiv.org/abs/2405.15922