Time distribution analysis for flasher data and simulations in the IceCube neutrino detector

The IceCube neutrino observatory is located in the deep glacial ice below the South Pole. IceCube consists of over 5, 000 photomultiplier tubes regularly spaced throughout a cubic kilometre volume of ice. The photomultiplier tubes are receptive to the light produced by high energy neutrino interacti...

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Bibliographic Details
Main Author: Sarah, Bouckoms
Format: Other/Unknown Material
Language:English
Published: University of Canterbury. Physics and Astronomy 2011
Subjects:
IceCube
neutrino
glacial ice
South Pole. Monte Carlo
Additionally Heterogeneous Absorption
(AHA)
South Pole
South pole
Online Access:http://hdl.handle.net/10092/9659
https://doi.org/10.26021/7524
id ftunivcanter:oai:ir.canterbury.ac.nz:10092/9659
record_format openpolar
spelling ftunivcanter:oai:ir.canterbury.ac.nz:10092/9659 2023-05-15T18:21:51+02:00 Time distribution analysis for flasher data and simulations in the IceCube neutrino detector Sarah, Bouckoms 2011 application/pdf http://hdl.handle.net/10092/9659 https://doi.org/10.26021/7524 en eng University of Canterbury. Physics and Astronomy NZCU http://hdl.handle.net/10092/9659 http://dx.doi.org/10.26021/7524 Copyright Bouckoms Sarah https://canterbury.libguides.com/rights/theses IceCube neutrino glacial ice South Pole. Monte Carlo Additionally Heterogeneous Absorption (AHA) Theses / Dissertations 2011 ftunivcanter https://doi.org/10.26021/7524 2022-09-08T13:36:01Z The IceCube neutrino observatory is located in the deep glacial ice below the South Pole. IceCube consists of over 5, 000 photomultiplier tubes regularly spaced throughout a cubic kilometre volume of ice. The photomultiplier tubes are receptive to the light produced by high energy neutrino interactions. As a means of evaluating our understanding of the physics of light propagation, a comparison was made between the data taken from artificial light sources and Monte Carlo simulations of these events. The evaluation was done by comparing the shape of the light arrival-time distributions. The three icemodels compared were the Additionally Heterogeneous Absorption (AHA), South Pole Ice - 1 (Spice) and South Pole Ice - Mie (Spice Mie). The artificial light sources used are LEDs, known as flashers, located within each of the detector modules. The data set used in this study was taken on string 63 with single- photoelectron settings (one LED). Various orientations of the flashing LED and relative position of the light source in the detector, were studied over 15 depths in instrumented ice. Through a χ2 comparison and distribution characteristics it was found that for the majority of cases, simulations which used the Spice Mie ice model matched the data best. There were, however, some isolated cases in which simulations using the Spice 1 or AHA ice models matched the flasher data best. Other/Unknown Material South pole University of Canterbury, Christchurch: UC Research Repository South Pole
institution Open Polar
collection University of Canterbury, Christchurch: UC Research Repository
op_collection_id ftunivcanter
language English
topic IceCube
neutrino
glacial ice
South Pole. Monte Carlo
Additionally Heterogeneous Absorption
(AHA)
spellingShingle IceCube
neutrino
glacial ice
South Pole. Monte Carlo
Additionally Heterogeneous Absorption
(AHA)
Sarah, Bouckoms
Time distribution analysis for flasher data and simulations in the IceCube neutrino detector
topic_facet IceCube
neutrino
glacial ice
South Pole. Monte Carlo
Additionally Heterogeneous Absorption
(AHA)
description The IceCube neutrino observatory is located in the deep glacial ice below the South Pole. IceCube consists of over 5, 000 photomultiplier tubes regularly spaced throughout a cubic kilometre volume of ice. The photomultiplier tubes are receptive to the light produced by high energy neutrino interactions. As a means of evaluating our understanding of the physics of light propagation, a comparison was made between the data taken from artificial light sources and Monte Carlo simulations of these events. The evaluation was done by comparing the shape of the light arrival-time distributions. The three icemodels compared were the Additionally Heterogeneous Absorption (AHA), South Pole Ice - 1 (Spice) and South Pole Ice - Mie (Spice Mie). The artificial light sources used are LEDs, known as flashers, located within each of the detector modules. The data set used in this study was taken on string 63 with single- photoelectron settings (one LED). Various orientations of the flashing LED and relative position of the light source in the detector, were studied over 15 depths in instrumented ice. Through a χ2 comparison and distribution characteristics it was found that for the majority of cases, simulations which used the Spice Mie ice model matched the data best. There were, however, some isolated cases in which simulations using the Spice 1 or AHA ice models matched the flasher data best.
format Other/Unknown Material
author Sarah, Bouckoms
author_facet Sarah, Bouckoms
author_sort Sarah, Bouckoms
title Time distribution analysis for flasher data and simulations in the IceCube neutrino detector
title_short Time distribution analysis for flasher data and simulations in the IceCube neutrino detector
title_full Time distribution analysis for flasher data and simulations in the IceCube neutrino detector
title_fullStr Time distribution analysis for flasher data and simulations in the IceCube neutrino detector
title_full_unstemmed Time distribution analysis for flasher data and simulations in the IceCube neutrino detector
title_sort time distribution analysis for flasher data and simulations in the icecube neutrino detector
publisher University of Canterbury. Physics and Astronomy
publishDate 2011
url http://hdl.handle.net/10092/9659
https://doi.org/10.26021/7524
geographic South Pole
geographic_facet South Pole
genre South pole
genre_facet South pole
op_relation NZCU
http://hdl.handle.net/10092/9659
http://dx.doi.org/10.26021/7524
op_rights Copyright Bouckoms Sarah
https://canterbury.libguides.com/rights/theses
op_doi https://doi.org/10.26021/7524
_version_ 1766201184145637376

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