Charge Sharing in (CdZn)Te Pixel Detector Characterized by Laser-Induced Transient Currents

Charge Sharing in (CdZn)Te Pixel Detector Characterized by Laser-Induced Transient Currents

Performance of the (CdZn)Te pixelated detectors heavily relies on the quality of the underlying material. Modern laser-induced transient current technique addresses this problem as a convenient tool for characterizing the associated charge distribution. In this paper, we investigated the charge shar...

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Main Authors: Igor Vasylchenko, Roman Grill, Eduard Belas, Petr Praus, Artem Musiienko
Format: Article
Language:English
Published: MDPI AG 2019-12-01
Series:Sensors
Subjects:
(cdzn)te
transient current
charge sharing
small pixel effect
Online Access:https://www.mdpi.com/1424-8220/20/1/85
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spelling doaj-b0d950114b594749afd54bf641e1473c2020-11-25T01:06:34ZengMDPI AGSensors1424-82202019-12-012018510.3390/s20010085s20010085Charge Sharing in (CdZn)Te Pixel Detector Characterized by Laser-Induced Transient CurrentsIgor Vasylchenko0Roman Grill1Eduard Belas2Petr Praus3Artem Musiienko4Institute of Physics, Faculty of Mathematics and Physics, Charles University, Ke Karlovu 5, CZ-12116 Prague 2, Czech RepublicInstitute of Physics, Faculty of Mathematics and Physics, Charles University, Ke Karlovu 5, CZ-12116 Prague 2, Czech RepublicInstitute of Physics, Faculty of Mathematics and Physics, Charles University, Ke Karlovu 5, CZ-12116 Prague 2, Czech RepublicInstitute of Physics, Faculty of Mathematics and Physics, Charles University, Ke Karlovu 5, CZ-12116 Prague 2, Czech RepublicInstitute of Physics, Faculty of Mathematics and Physics, Charles University, Ke Karlovu 5, CZ-12116 Prague 2, Czech RepublicPerformance of the (CdZn)Te pixelated detectors heavily relies on the quality of the underlying material. Modern laser-induced transient current technique addresses this problem as a convenient tool for characterizing the associated charge distribution. In this paper, we investigated the charge sharing phenomenon in (CdZn)Te pixel detector as a function of the charge collected on adjacent pixels. The current transients were generated in the defined 4 mm<sup>2</sup> spots using 660 nm laser illumination. Waveforms measured on the pixel of interest and its surroundings were used to build the maps of the collected charge at different biases. The detailed study of the maps allowed us to distinguish the charge sharing region, the region with a defect, and the finest part in terms of the performance part of the pixelated anode. We observed the principal inhomogeneity complicating the assignment of the illuminated spot to the nearest pixel.https://www.mdpi.com/1424-8220/20/1/85(cdzn)tetransient currentcharge sharingsmall pixel effect
collection DOAJ
language English
format Article
sources DOAJ
author Igor Vasylchenko
Roman Grill
Eduard Belas
Petr Praus
Artem Musiienko
spellingShingle Igor Vasylchenko
Roman Grill
Eduard Belas
Petr Praus
Artem Musiienko
Charge Sharing in (CdZn)Te Pixel Detector Characterized by Laser-Induced Transient Currents
Sensors
(cdzn)te
transient current
charge sharing
small pixel effect
author_facet Igor Vasylchenko
Roman Grill
Eduard Belas
Petr Praus
Artem Musiienko
author_sort Igor Vasylchenko
title Charge Sharing in (CdZn)Te Pixel Detector Characterized by Laser-Induced Transient Currents
title_short Charge Sharing in (CdZn)Te Pixel Detector Characterized by Laser-Induced Transient Currents
title_full Charge Sharing in (CdZn)Te Pixel Detector Characterized by Laser-Induced Transient Currents
title_fullStr Charge Sharing in (CdZn)Te Pixel Detector Characterized by Laser-Induced Transient Currents
title_full_unstemmed Charge Sharing in (CdZn)Te Pixel Detector Characterized by Laser-Induced Transient Currents
title_sort charge sharing in (cdzn)te pixel detector characterized by laser-induced transient currents
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2019-12-01
description Performance of the (CdZn)Te pixelated detectors heavily relies on the quality of the underlying material. Modern laser-induced transient current technique addresses this problem as a convenient tool for characterizing the associated charge distribution. In this paper, we investigated the charge sharing phenomenon in (CdZn)Te pixel detector as a function of the charge collected on adjacent pixels. The current transients were generated in the defined 4 mm<sup>2</sup> spots using 660 nm laser illumination. Waveforms measured on the pixel of interest and its surroundings were used to build the maps of the collected charge at different biases. The detailed study of the maps allowed us to distinguish the charge sharing region, the region with a defect, and the finest part in terms of the performance part of the pixelated anode. We observed the principal inhomogeneity complicating the assignment of the illuminated spot to the nearest pixel.
topic (cdzn)te
transient current
charge sharing
small pixel effect
url https://www.mdpi.com/1424-8220/20/1/85
work_keys_str_mv AT igorvasylchenko chargesharingincdzntepixeldetectorcharacterizedbylaserinducedtransientcurrents
AT romangrill chargesharingincdzntepixeldetectorcharacterizedbylaserinducedtransientcurrents
AT eduardbelas chargesharingincdzntepixeldetectorcharacterizedbylaserinducedtransientcurrents
AT petrpraus chargesharingincdzntepixeldetectorcharacterizedbylaserinducedtransientcurrents
AT artemmusiienko chargesharingincdzntepixeldetectorcharacterizedbylaserinducedtransientcurrents
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