Characteristics of Cherenkov Radiation in Naturally Occuring Ice

We revisit the theory of Cherenkov radiation in uniaxial crystals. Historically, a number of flawed attempts have been made at explaining this radiation phenomenon and a consistent error-free description is nowhere available. We apply our calculation to a large modern day telescope - IceCube. Being...

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Main Authors:	Mikkelsen, R. E., Poulsen, T., Uggerhøj, U. I., Klein, S. R.
Format:	Text
Language:	unknown
Published:	arXiv 2016
Subjects:	High Energy Physics - Phenomenology hep-ph High Energy Physics - Experiment hep-ex FOS Physical sciences Pingu Antarc* Antarctica
Online Access:	https://dx.doi.org/10.48550/arxiv.1602.03714 https://arxiv.org/abs/1602.03714

id	ftdatacite:10.48550/arxiv.1602.03714
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spelling	ftdatacite:10.48550/arxiv.1602.03714 2023-05-15T13:51:05+02:00 Characteristics of Cherenkov Radiation in Naturally Occuring Ice Mikkelsen, R. E. Poulsen, T. Uggerhøj, U. I. Klein, S. R. 2016 https://dx.doi.org/10.48550/arxiv.1602.03714 https://arxiv.org/abs/1602.03714 unknown arXiv https://dx.doi.org/10.1103/physrevd.93.053006 arXiv.org perpetual, non-exclusive license http://arxiv.org/licenses/nonexclusive-distrib/1.0/ High Energy Physics - Phenomenology hep-ph High Energy Physics - Experiment hep-ex FOS Physical sciences article-journal Article ScholarlyArticle Text 2016 ftdatacite https://doi.org/10.48550/arxiv.1602.03714 https://doi.org/10.1103/physrevd.93.053006 2022-04-01T11:34:18Z We revisit the theory of Cherenkov radiation in uniaxial crystals. Historically, a number of flawed attempts have been made at explaining this radiation phenomenon and a consistent error-free description is nowhere available. We apply our calculation to a large modern day telescope - IceCube. Being located at the Antarctica, this detector makes use of the naturally occuring ice as a medium to generate Cherenkov radiation. However, due to the high pressure at the depth of the detector site, large volumes of hexagonal ice crystals are formed. We calculate how this affects the Cherenkov radiation yield and angular dependence. We conclude that the effect is small, at most about a percent, and would only be relevant in future high precision instruments like e.g. Precision IceCube Next Generation Upgrade (PINGU). For radio-Cherenkov experiments which use the presence of a clear Cherenkov cone to determine the arrival direction, any variation in emission angle will directly and linearly translate into a change in apparent neutrino direction. In closing, we also describe a simple experiment to test this formalism, and calculate the impact of anisotropy on light-yields from lead tungstate crystals as used, for example, in the CMS calorimeter at the CERN LHC. Text Antarc* Antarctica DataCite Metadata Store (German National Library of Science and Technology) Pingu ENVELOPE(-52.017,-52.017,67.067,67.067)
institution	Open Polar
collection	DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id	ftdatacite
language	unknown
topic	High Energy Physics - Phenomenology hep-ph High Energy Physics - Experiment hep-ex FOS Physical sciences
spellingShingle	High Energy Physics - Phenomenology hep-ph High Energy Physics - Experiment hep-ex FOS Physical sciences Mikkelsen, R. E. Poulsen, T. Uggerhøj, U. I. Klein, S. R. Characteristics of Cherenkov Radiation in Naturally Occuring Ice
topic_facet	High Energy Physics - Phenomenology hep-ph High Energy Physics - Experiment hep-ex FOS Physical sciences
description	We revisit the theory of Cherenkov radiation in uniaxial crystals. Historically, a number of flawed attempts have been made at explaining this radiation phenomenon and a consistent error-free description is nowhere available. We apply our calculation to a large modern day telescope - IceCube. Being located at the Antarctica, this detector makes use of the naturally occuring ice as a medium to generate Cherenkov radiation. However, due to the high pressure at the depth of the detector site, large volumes of hexagonal ice crystals are formed. We calculate how this affects the Cherenkov radiation yield and angular dependence. We conclude that the effect is small, at most about a percent, and would only be relevant in future high precision instruments like e.g. Precision IceCube Next Generation Upgrade (PINGU). For radio-Cherenkov experiments which use the presence of a clear Cherenkov cone to determine the arrival direction, any variation in emission angle will directly and linearly translate into a change in apparent neutrino direction. In closing, we also describe a simple experiment to test this formalism, and calculate the impact of anisotropy on light-yields from lead tungstate crystals as used, for example, in the CMS calorimeter at the CERN LHC.
format	Text
author	Mikkelsen, R. E. Poulsen, T. Uggerhøj, U. I. Klein, S. R.
author_facet	Mikkelsen, R. E. Poulsen, T. Uggerhøj, U. I. Klein, S. R.
author_sort	Mikkelsen, R. E.
title	Characteristics of Cherenkov Radiation in Naturally Occuring Ice
title_short	Characteristics of Cherenkov Radiation in Naturally Occuring Ice
title_full	Characteristics of Cherenkov Radiation in Naturally Occuring Ice
title_fullStr	Characteristics of Cherenkov Radiation in Naturally Occuring Ice
title_full_unstemmed	Characteristics of Cherenkov Radiation in Naturally Occuring Ice
title_sort	characteristics of cherenkov radiation in naturally occuring ice
publisher	arXiv
publishDate	2016
url	https://dx.doi.org/10.48550/arxiv.1602.03714 https://arxiv.org/abs/1602.03714
long_lat	ENVELOPE(-52.017,-52.017,67.067,67.067)
geographic	Pingu
geographic_facet	Pingu
genre	Antarc* Antarctica
genre_facet	Antarc* Antarctica
op_relation	https://dx.doi.org/10.1103/physrevd.93.053006
op_rights	arXiv.org perpetual, non-exclusive license http://arxiv.org/licenses/nonexclusive-distrib/1.0/
op_doi	https://doi.org/10.48550/arxiv.1602.03714 https://doi.org/10.1103/physrevd.93.053006
_version_	1766254670359035904

Characteristics of Cherenkov Radiation in Naturally Occuring Ice

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