Liquid scintillator composition optimization for use in ultra-high energy cosmic ray detector systems

Liquid scintillator composition optimization for use in ultra-high energy cosmic ray detector systems

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The Horizon-T (HT) detector system and the currently under R&D HT-KZ detector system are designed for the detection of Extensive Air Showers (EAS) with energies above ∼1016 eV (∼1017 eV for HT-KZ). The main challenges in both detector systems are the fast time resolutions needed for studying the...

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Main Authors: Beznosko Dmitriy, Batyrkhanov Ayan, Iakovlev Alexander, Yelshibekov Khalykbek
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:EPJ Web of Conferences
Online Access:https://doi.org/10.1051/epjconf/201714519016
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spelling doaj-37a17b622ca344598a3cc9c91b62dcf32021-08-02T09:22:19ZengEDP SciencesEPJ Web of Conferences2100-014X2017-01-011451901610.1051/epjconf/201714519016epjconf-isvhecri2016_19016Liquid scintillator composition optimization for use in ultra-high energy cosmic ray detector systemsBeznosko Dmitriy0Batyrkhanov Ayan1Iakovlev Alexander2Yelshibekov Khalykbek3Nazarbayev UniversityNazarbayev UniversityNazarbayev UniversityNazarbayev UniversityThe Horizon-T (HT) detector system and the currently under R&D HT-KZ detector system are designed for the detection of Extensive Air Showers (EAS) with energies above ∼1016 eV (∼1017 eV for HT-KZ). The main challenges in both detector systems are the fast time resolutions needed for studying the temporary structure of EAS, and the extremely wide dynamic range needed to study the spatial distribution of charged particles in EAS disks. In order to detect the low-density of charged particles far from the EAS axis, a large-area detector is needed. Liquid scintillator with low cost would be a possible solution for such a detector, including the recently developed safe and low-cost water-based liquid scintillators. Liquid organic scintillators give a fast and high light yield (LY) for charged particle detection. It is similar to plastic scintillator in properties but is cost effective for large volumes. With liquid scintillator, one can create detection volumes that are symmetric and yet retain high LY detection. Different wavelength shifters affect the scintillation light by changing the output spectrum into the best detection region. Results of the latest studies of the components optimization in the liquid scintillator formulae are presented.https://doi.org/10.1051/epjconf/201714519016
collection DOAJ
language English
format Article
sources DOAJ
author Beznosko Dmitriy
Batyrkhanov Ayan
Iakovlev Alexander
Yelshibekov Khalykbek
spellingShingle Beznosko Dmitriy
Batyrkhanov Ayan
Iakovlev Alexander
Yelshibekov Khalykbek
Liquid scintillator composition optimization for use in ultra-high energy cosmic ray detector systems
EPJ Web of Conferences
author_facet Beznosko Dmitriy
Batyrkhanov Ayan
Iakovlev Alexander
Yelshibekov Khalykbek
author_sort Beznosko Dmitriy
title Liquid scintillator composition optimization for use in ultra-high energy cosmic ray detector systems
title_short Liquid scintillator composition optimization for use in ultra-high energy cosmic ray detector systems
title_full Liquid scintillator composition optimization for use in ultra-high energy cosmic ray detector systems
title_fullStr Liquid scintillator composition optimization for use in ultra-high energy cosmic ray detector systems
title_full_unstemmed Liquid scintillator composition optimization for use in ultra-high energy cosmic ray detector systems
title_sort liquid scintillator composition optimization for use in ultra-high energy cosmic ray detector systems
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2017-01-01
description The Horizon-T (HT) detector system and the currently under R&D HT-KZ detector system are designed for the detection of Extensive Air Showers (EAS) with energies above ∼1016 eV (∼1017 eV for HT-KZ). The main challenges in both detector systems are the fast time resolutions needed for studying the temporary structure of EAS, and the extremely wide dynamic range needed to study the spatial distribution of charged particles in EAS disks. In order to detect the low-density of charged particles far from the EAS axis, a large-area detector is needed. Liquid scintillator with low cost would be a possible solution for such a detector, including the recently developed safe and low-cost water-based liquid scintillators. Liquid organic scintillators give a fast and high light yield (LY) for charged particle detection. It is similar to plastic scintillator in properties but is cost effective for large volumes. With liquid scintillator, one can create detection volumes that are symmetric and yet retain high LY detection. Different wavelength shifters affect the scintillation light by changing the output spectrum into the best detection region. Results of the latest studies of the components optimization in the liquid scintillator formulae are presented.
url https://doi.org/10.1051/epjconf/201714519016
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AT batyrkhanovayan liquidscintillatorcompositionoptimizationforuseinultrahighenergycosmicraydetectorsystems
AT iakovlevalexander liquidscintillatorcompositionoptimizationforuseinultrahighenergycosmicraydetectorsystems
AT yelshibekovkhalykbek liquidscintillatorcompositionoptimizationforuseinultrahighenergycosmicraydetectorsystems
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