Unfolding the Atmospheric Neutrino Flux Using the IceCube/DeepCore Neutrino Telescope
Abstract Cosmic rays in the form of high energy particles, strike the Earth every second. Since the first discoveries of the cosmic ray flux in the early nineteenth century, the origin and properties of the cosmic rays have been the subject of much investigation and debate. Cosmic ray interactions i...
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Johannes Gutenberg-Universität Mainz
2022
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ftunivmainzpubl:oai:openscience.ub.uni-mainz.de:20.500.12030/6403 2023-05-15T18:23:16+02:00 Unfolding the Atmospheric Neutrino Flux Using the IceCube/DeepCore Neutrino Telescope Sandroos, Joakim Böser, Sebastian 2022 https://openscience.ub.uni-mainz.de/handle/20.500.12030/6403 https://hdl.handle.net/20.500.12030/6403 https://doi.org/10.25358/openscience-6393 eng eng Johannes Gutenberg-Universität Mainz http://doi.org/10.25358/openscience-6393 https://openscience.ub.uni-mainz.de/handle/20.500.12030/6403 in Copyright http://rightsstatements.org/vocab/InC/1.0/ openAccess ddc:530 Dissertation publishedVersion Text doc-type:doctoralThesis 2022 ftunivmainzpubl https://doi.org/20.500.12030/6403 https://doi.org/10.25358/openscience-6393 2022-09-15T11:47:16Z Abstract Cosmic rays in the form of high energy particles, strike the Earth every second. Since the first discoveries of the cosmic ray flux in the early nineteenth century, the origin and properties of the cosmic rays have been the subject of much investigation and debate. Cosmic ray interactions in the upper atmosphere create particle showers, containing several species of particles. The daughter particles generated in these showers carry with them information about the interaction dynamics and properties of the parent cosmic rays. One group of daughter particles are the neutrinos, which are left handed leptons included in the standard model of particle physics. While they were previously believed to be massless, progress over the past two decades have established their mass through observation of oscillations, particularly in atmospheric neutrinos. This work presents an investigation of the atmospheric neutrino flux measured with the IceCube South Pole Neutrino Observatory, using data from 5 seasons of IceCube operation. Modeling of the atmospheric neutrino flux is a multi dimensional problem and at the time of publication the uncertainties on both theoretical predictions and measurements are of such scale that all models and measurements are in agreement. This work aims to improve the precision in measurement in order to give better discriminating power between models. The analysis presented herein performs an unfolding in three dimensions, energy, zenith angle and particle identification channel. The method is as model independent as possible and utilizes iterative Bayesian unfolding to measure the unfolded event rate by detection volume for two particle groups: \nu_{\mu}^{\mathrm{cc}}+\bar{\nu}_{\mu}^{\mathrm{cc}} constituting the muon neutrino charged current interactions, and \nu_{\mathrm{rest}} constituting all other flavor and interaction types. A total of 204847 neutrino candidate events are observed and unfolded. Great care is taken to avoid bias in the unfolding via a series of closure tests. The ... Doctoral or Postdoctoral Thesis South pole Gutenberg Open Science (Open-Science-Repository of the Johannes Gutenberg-University Mainz) South Pole |
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Gutenberg Open Science (Open-Science-Repository of the Johannes Gutenberg-University Mainz) |
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ddc:530 Sandroos, Joakim Unfolding the Atmospheric Neutrino Flux Using the IceCube/DeepCore Neutrino Telescope |
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description |
Abstract Cosmic rays in the form of high energy particles, strike the Earth every second. Since the first discoveries of the cosmic ray flux in the early nineteenth century, the origin and properties of the cosmic rays have been the subject of much investigation and debate. Cosmic ray interactions in the upper atmosphere create particle showers, containing several species of particles. The daughter particles generated in these showers carry with them information about the interaction dynamics and properties of the parent cosmic rays. One group of daughter particles are the neutrinos, which are left handed leptons included in the standard model of particle physics. While they were previously believed to be massless, progress over the past two decades have established their mass through observation of oscillations, particularly in atmospheric neutrinos. This work presents an investigation of the atmospheric neutrino flux measured with the IceCube South Pole Neutrino Observatory, using data from 5 seasons of IceCube operation. Modeling of the atmospheric neutrino flux is a multi dimensional problem and at the time of publication the uncertainties on both theoretical predictions and measurements are of such scale that all models and measurements are in agreement. This work aims to improve the precision in measurement in order to give better discriminating power between models. The analysis presented herein performs an unfolding in three dimensions, energy, zenith angle and particle identification channel. The method is as model independent as possible and utilizes iterative Bayesian unfolding to measure the unfolded event rate by detection volume for two particle groups: \nu_{\mu}^{\mathrm{cc}}+\bar{\nu}_{\mu}^{\mathrm{cc}} constituting the muon neutrino charged current interactions, and \nu_{\mathrm{rest}} constituting all other flavor and interaction types. A total of 204847 neutrino candidate events are observed and unfolded. Great care is taken to avoid bias in the unfolding via a series of closure tests. The ... |
author2 |
Böser, Sebastian |
format |
Doctoral or Postdoctoral Thesis |
author |
Sandroos, Joakim |
author_facet |
Sandroos, Joakim |
author_sort |
Sandroos, Joakim |
title |
Unfolding the Atmospheric Neutrino Flux Using the IceCube/DeepCore Neutrino Telescope |
title_short |
Unfolding the Atmospheric Neutrino Flux Using the IceCube/DeepCore Neutrino Telescope |
title_full |
Unfolding the Atmospheric Neutrino Flux Using the IceCube/DeepCore Neutrino Telescope |
title_fullStr |
Unfolding the Atmospheric Neutrino Flux Using the IceCube/DeepCore Neutrino Telescope |
title_full_unstemmed |
Unfolding the Atmospheric Neutrino Flux Using the IceCube/DeepCore Neutrino Telescope |
title_sort |
unfolding the atmospheric neutrino flux using the icecube/deepcore neutrino telescope |
publisher |
Johannes Gutenberg-Universität Mainz |
publishDate |
2022 |
url |
https://openscience.ub.uni-mainz.de/handle/20.500.12030/6403 https://hdl.handle.net/20.500.12030/6403 https://doi.org/10.25358/openscience-6393 |
geographic |
South Pole |
geographic_facet |
South Pole |
genre |
South pole |
genre_facet |
South pole |
op_relation |
http://doi.org/10.25358/openscience-6393 https://openscience.ub.uni-mainz.de/handle/20.500.12030/6403 |
op_rights |
in Copyright http://rightsstatements.org/vocab/InC/1.0/ openAccess |
op_doi |
https://doi.org/20.500.12030/6403 https://doi.org/10.25358/openscience-6393 |
_version_ |
1766202819132522496 |