Calorimetric System for Determination of Activity of a Neutrino Source Based on {sup 51}Cr

Within the framework of the BEST experiment project, a calorimetric system was developed to measure the activity of high-intensity (several MCi) neutrino sources based on {sup 51}Cr. In the range of thermal capacities of 250–520 W, the uncertainty of the heat release measurement is less than 0.25%....

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Published in:Physics of particles and nuclei 2018-07, Vol.49 (4)
Main Authors: Kozlova, J. P., Veretenkin, E. P., Gavrin, V. N., Grekhov, O. V., Ibragimova, T. V., Kalikhov, A. V., Martynov, A. A.
Format: Article
Language:English
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CALORIMETRY
CHROMIUM 51
NEUTRINOS
PHYSICS OF ELEMENTARY PARTICLES AND FIELDS
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container_issue 4
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container_title Physics of particles and nuclei
container_volume 49
creator Kozlova, J. P.
Veretenkin, E. P.
Gavrin, V. N.
Grekhov, O. V.
Ibragimova, T. V.
Kalikhov, A. V.
Martynov, A. A.
description Within the framework of the BEST experiment project, a calorimetric system was developed to measure the activity of high-intensity (several MCi) neutrino sources based on {sup 51}Cr. In the range of thermal capacities of 250–520 W, the uncertainty of the heat release measurement is less than 0.25%. Taking into account the uncertainty of the energy release value for the {sup 51}Cr decay (0.23%), the activity of the neutrino source can be determined with an accuracy of ∼0.5%.
doi_str_mv 10.1134/S1063779618040378
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subjects CALORIMETRY
CHROMIUM 51
NEUTRINOS
PHYSICS OF ELEMENTARY PARTICLES AND FIELDS
title Calorimetric System for Determination of Activity of a Neutrino Source Based on {sup 51}Cr
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