Computational techniques for the analysis of small signals in high-statistics neutrino oscillation experiments

The current and upcoming generation of Very Large Volume Neutrino Telescopes - collecting unprecedented quantities of neutrino events - can be used to explore subtle effects in oscillation physics, such as (but not restricted to) the neutrino mass ordering. The sensitivity of an experiment to these...

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Hauptverfasser:	Adams, J, Aguilar, J. A, Anderson, T, Ansseau, I, Bagherpour, H, Balagopal, A, Tjus, J. Becker, BenZvi, S, Blaufuss, E, Blot, S, Bourbeau, J, Bradascio, F, Braun, J, Busse, R. S, Classen, L, Conrad, J. M, Coppin, P, Correa, P, DeVries, K. D, de Wasseige, G, de With, M, DeYoung, T, Dujmovic, H, Dvorak, E, Engel, R, Filimonov, K, Friedman, E, Fritz, A, Garrappa, S, Halve, L, Haungs, A, Helbing, K, Henningsen, F, Hickford, S, Hill, G. C, Hoinka, T, Huang, F, Huber, T, Hussain, R, In, S, Iovine, N, Karl, M, Karle, A, Kopper, S, Koskinen, D. J, Kulacz, N, Kyriacou, A, Liu, Q. R, Lohfink, E, Lu, L, Mahn, K. B. M, Mallik, P, Meures, T, Morse, R, Moulai, M, Nisa, M. U, Nygren, D. R, Olivas, A, O'Murchadha, A, Palczewski, T, Pandya, H, Peiffer, P, Pizzuto, A, Raissi, A, Rawlins, K, Robertson, S, Rott, C, Safa, I, Sandroos, J, Santander, M, Schneider, J, Schroder, F. G, Schumacher, L, Sclafani, S, Soedingrekso, J, Spiering, C, Stezelberger, T, Stossl, A, Stuttard, T, Sullivan, G. W, Taboada, I, Tonnis, C, Trettin, A, Tung, C. F, Turcati, A, Turcotte, R, Elorrieta, M. A. Unland, Usner, M, van Eijndhoven, N, Wallace, A, Watson, T. B, Weaver, C, Wendt, C, Wood, J, Woschnagg, K, Wrede, G, Xu, D. L, Yanez, J. P, Yoshida, S, Yuan, T
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Sprache:	eng
Schlagworte:	Data analysis Detector FVLV nu T KDE MATTER Monte Carlo Neutrino Neutrino mass ordering Physics and Astronomy Smoothing Statistics
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creator	Adams, J Aguilar, J. A Anderson, T Ansseau, I Bagherpour, H Balagopal, A Tjus, J. Becker BenZvi, S Blaufuss, E Blot, S Bourbeau, J Bradascio, F Braun, J Busse, R. S Classen, L Conrad, J. M Coppin, P Correa, P DeVries, K. D de Wasseige, G de With, M DeYoung, T Dujmovic, H Dvorak, E Engel, R Filimonov, K Friedman, E Fritz, A Garrappa, S Halve, L Haungs, A Helbing, K Henningsen, F Hickford, S Hill, G. C Hoinka, T Huang, F Huber, T Hussain, R In, S Iovine, N Karl, M Karle, A Kopper, S Koskinen, D. J Kulacz, N Kyriacou, A Liu, Q. R Lohfink, E Lu, L Mahn, K. B. M Mallik, P Meures, T Morse, R Moulai, M Nisa, M. U Nygren, D. R Olivas, A O'Murchadha, A Palczewski, T Pandya, H Peiffer, P Pizzuto, A Raissi, A Rawlins, K Robertson, S Rott, C Safa, I Sandroos, J Santander, M Schneider, J Schroder, F. G Schumacher, L Sclafani, S Soedingrekso, J Spiering, C Stezelberger, T Stossl, A Stuttard, T Sullivan, G. W Taboada, I Tonnis, C Trettin, A Tung, C. F Turcati, A Turcotte, R Elorrieta, M. A. Unland Usner, M van Eijndhoven, N Wallace, A Watson, T. B Weaver, C Wendt, C Wood, J Woschnagg, K Wrede, G Xu, D. L Yanez, J. P Yoshida, S Yuan, T
description	The current and upcoming generation of Very Large Volume Neutrino Telescopes - collecting unprecedented quantities of neutrino events - can be used to explore subtle effects in oscillation physics, such as (but not restricted to) the neutrino mass ordering. The sensitivity of an experiment to these effects can be estimated from Monte Carlo simulations. With the high number of events that will be collected, there is a trade-off between the computational expense of running such simulations and the inherent statistical uncertainty in the determined values. In such a scenario, it becomes impractical to produce and use adequately-sized sets of simulated events with traditional methods, such as Monte Carlo weighting. In this work we present a staged approach to the generation of expected distributions of observables in order to overcome these challenges. By combining multiple integration and smoothing techniques which address limited statistics from simulation it arrives at reliable analysis results using modest computational resources.
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A ; Anderson, T ; Ansseau, I ; Bagherpour, H ; Balagopal, A ; Tjus, J. Becker ; BenZvi, S ; Blaufuss, E ; Blot, S ; Bourbeau, J ; Bradascio, F ; Braun, J ; Busse, R. S ; Classen, L ; Conrad, J. M ; Coppin, P ; Correa, P ; DeVries, K. D ; de Wasseige, G ; de With, M ; DeYoung, T ; Dujmovic, H ; Dvorak, E ; Engel, R ; Filimonov, K ; Friedman, E ; Fritz, A ; Garrappa, S ; Halve, L ; Haungs, A ; Helbing, K ; Henningsen, F ; Hickford, S ; Hill, G. C ; Hoinka, T ; Huang, F ; Huber, T ; Hussain, R ; In, S ; Iovine, N ; Karl, M ; Karle, A ; Kopper, S ; Koskinen, D. J ; Kulacz, N ; Kyriacou, A ; Liu, Q. R ; Lohfink, E ; Lu, L ; Mahn, K. B. M ; Mallik, P ; Meures, T ; Morse, R ; Moulai, M ; Nisa, M. U ; Nygren, D. R ; Olivas, A ; O'Murchadha, A ; Palczewski, T ; Pandya, H ; Peiffer, P ; Pizzuto, A ; Raissi, A ; Rawlins, K ; Robertson, S ; Rott, C ; Safa, I ; Sandroos, J ; Santander, M ; Schneider, J ; Schroder, F. G ; Schumacher, L ; Sclafani, S ; Soedingrekso, J ; Spiering, C ; Stezelberger, T ; Stossl, A ; Stuttard, T ; Sullivan, G. W ; Taboada, I ; Tonnis, C ; Trettin, A ; Tung, C. F ; Turcati, A ; Turcotte, R ; Elorrieta, M. A. Unland ; Usner, M ; van Eijndhoven, N ; Wallace, A ; Watson, T. B ; Weaver, C ; Wendt, C ; Wood, J ; Woschnagg, K ; Wrede, G ; Xu, D. L ; Yanez, J. P ; Yoshida, S ; Yuan, T</creator><creatorcontrib>Adams, J ; Aguilar, J. A ; Anderson, T ; Ansseau, I ; Bagherpour, H ; Balagopal, A ; Tjus, J. Becker ; BenZvi, S ; Blaufuss, E ; Blot, S ; Bourbeau, J ; Bradascio, F ; Braun, J ; Busse, R. S ; Classen, L ; Conrad, J. M ; Coppin, P ; Correa, P ; DeVries, K. D ; de Wasseige, G ; de With, M ; DeYoung, T ; Dujmovic, H ; Dvorak, E ; Engel, R ; Filimonov, K ; Friedman, E ; Fritz, A ; Garrappa, S ; Halve, L ; Haungs, A ; Helbing, K ; Henningsen, F ; Hickford, S ; Hill, G. C ; Hoinka, T ; Huang, F ; Huber, T ; Hussain, R ; In, S ; Iovine, N ; Karl, M ; Karle, A ; Kopper, S ; Koskinen, D. J ; Kulacz, N ; Kyriacou, A ; Liu, Q. R ; Lohfink, E ; Lu, L ; Mahn, K. B. M ; Mallik, P ; Meures, T ; Morse, R ; Moulai, M ; Nisa, M. U ; Nygren, D. R ; Olivas, A ; O'Murchadha, A ; Palczewski, T ; Pandya, H ; Peiffer, P ; Pizzuto, A ; Raissi, A ; Rawlins, K ; Robertson, S ; Rott, C ; Safa, I ; Sandroos, J ; Santander, M ; Schneider, J ; Schroder, F. G ; Schumacher, L ; Sclafani, S ; Soedingrekso, J ; Spiering, C ; Stezelberger, T ; Stossl, A ; Stuttard, T ; Sullivan, G. W ; Taboada, I ; Tonnis, C ; Trettin, A ; Tung, C. F ; Turcati, A ; Turcotte, R ; Elorrieta, M. A. Unland ; Usner, M ; van Eijndhoven, N ; Wallace, A ; Watson, T. B ; Weaver, C ; Wendt, C ; Wood, J ; Woschnagg, K ; Wrede, G ; Xu, D. L ; Yanez, J. P ; Yoshida, S ; Yuan, T</creatorcontrib><description>The current and upcoming generation of Very Large Volume Neutrino Telescopes - collecting unprecedented quantities of neutrino events - can be used to explore subtle effects in oscillation physics, such as (but not restricted to) the neutrino mass ordering. The sensitivity of an experiment to these effects can be estimated from Monte Carlo simulations. With the high number of events that will be collected, there is a trade-off between the computational expense of running such simulations and the inherent statistical uncertainty in the determined values. In such a scenario, it becomes impractical to produce and use adequately-sized sets of simulated events with traditional methods, such as Monte Carlo weighting. In this work we present a staged approach to the generation of expected distributions of observables in order to overcome these challenges. 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With the high number of events that will be collected, there is a trade-off between the computational expense of running such simulations and the inherent statistical uncertainty in the determined values. In such a scenario, it becomes impractical to produce and use adequately-sized sets of simulated events with traditional methods, such as Monte Carlo weighting. In this work we present a staged approach to the generation of expected distributions of observables in order to overcome these challenges. 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D ; de Wasseige, G ; de With, M ; DeYoung, T ; Dujmovic, H ; Dvorak, E ; Engel, R ; Filimonov, K ; Friedman, E ; Fritz, A ; Garrappa, S ; Halve, L ; Haungs, A ; Helbing, K ; Henningsen, F ; Hickford, S ; Hill, G. C ; Hoinka, T ; Huang, F ; Huber, T ; Hussain, R ; In, S ; Iovine, N ; Karl, M ; Karle, A ; Kopper, S ; Koskinen, D. J ; Kulacz, N ; Kyriacou, A ; Liu, Q. R ; Lohfink, E ; Lu, L ; Mahn, K. B. M ; Mallik, P ; Meures, T ; Morse, R ; Moulai, M ; Nisa, M. U ; Nygren, D. R ; Olivas, A ; O'Murchadha, A ; Palczewski, T ; Pandya, H ; Peiffer, P ; Pizzuto, A ; Raissi, A ; Rawlins, K ; Robertson, S ; Rott, C ; Safa, I ; Sandroos, J ; Santander, M ; Schneider, J ; Schroder, F. G ; Schumacher, L ; Sclafani, S ; Soedingrekso, J ; Spiering, C ; Stezelberger, T ; Stossl, A ; Stuttard, T ; Sullivan, G. W ; Taboada, I ; Tonnis, C ; Trettin, A ; Tung, C. F ; Turcati, A ; Turcotte, R ; Elorrieta, M. A. Unland ; Usner, M ; van Eijndhoven, N ; Wallace, A ; Watson, T. 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C</creatorcontrib><creatorcontrib>Hoinka, T</creatorcontrib><creatorcontrib>Huang, F</creatorcontrib><creatorcontrib>Huber, T</creatorcontrib><creatorcontrib>Hussain, R</creatorcontrib><creatorcontrib>In, S</creatorcontrib><creatorcontrib>Iovine, N</creatorcontrib><creatorcontrib>Karl, M</creatorcontrib><creatorcontrib>Karle, A</creatorcontrib><creatorcontrib>Kopper, S</creatorcontrib><creatorcontrib>Koskinen, D. J</creatorcontrib><creatorcontrib>Kulacz, N</creatorcontrib><creatorcontrib>Kyriacou, A</creatorcontrib><creatorcontrib>Liu, Q. R</creatorcontrib><creatorcontrib>Lohfink, E</creatorcontrib><creatorcontrib>Lu, L</creatorcontrib><creatorcontrib>Mahn, K. B. M</creatorcontrib><creatorcontrib>Mallik, P</creatorcontrib><creatorcontrib>Meures, T</creatorcontrib><creatorcontrib>Morse, R</creatorcontrib><creatorcontrib>Moulai, M</creatorcontrib><creatorcontrib>Nisa, M. U</creatorcontrib><creatorcontrib>Nygren, D. R</creatorcontrib><creatorcontrib>Olivas, A</creatorcontrib><creatorcontrib>O'Murchadha, A</creatorcontrib><creatorcontrib>Palczewski, T</creatorcontrib><creatorcontrib>Pandya, H</creatorcontrib><creatorcontrib>Peiffer, P</creatorcontrib><creatorcontrib>Pizzuto, A</creatorcontrib><creatorcontrib>Raissi, A</creatorcontrib><creatorcontrib>Rawlins, K</creatorcontrib><creatorcontrib>Robertson, S</creatorcontrib><creatorcontrib>Rott, C</creatorcontrib><creatorcontrib>Safa, I</creatorcontrib><creatorcontrib>Sandroos, J</creatorcontrib><creatorcontrib>Santander, M</creatorcontrib><creatorcontrib>Schneider, J</creatorcontrib><creatorcontrib>Schroder, F. G</creatorcontrib><creatorcontrib>Schumacher, L</creatorcontrib><creatorcontrib>Sclafani, S</creatorcontrib><creatorcontrib>Soedingrekso, J</creatorcontrib><creatorcontrib>Spiering, C</creatorcontrib><creatorcontrib>Stezelberger, T</creatorcontrib><creatorcontrib>Stossl, A</creatorcontrib><creatorcontrib>Stuttard, T</creatorcontrib><creatorcontrib>Sullivan, G. W</creatorcontrib><creatorcontrib>Taboada, I</creatorcontrib><creatorcontrib>Tonnis, C</creatorcontrib><creatorcontrib>Trettin, A</creatorcontrib><creatorcontrib>Tung, C. F</creatorcontrib><creatorcontrib>Turcati, A</creatorcontrib><creatorcontrib>Turcotte, R</creatorcontrib><creatorcontrib>Elorrieta, M. A. Unland</creatorcontrib><creatorcontrib>Usner, M</creatorcontrib><creatorcontrib>van Eijndhoven, N</creatorcontrib><creatorcontrib>Wallace, A</creatorcontrib><creatorcontrib>Watson, T. B</creatorcontrib><creatorcontrib>Weaver, C</creatorcontrib><creatorcontrib>Wendt, C</creatorcontrib><creatorcontrib>Wood, J</creatorcontrib><creatorcontrib>Woschnagg, K</creatorcontrib><creatorcontrib>Wrede, G</creatorcontrib><creatorcontrib>Xu, D. L</creatorcontrib><creatorcontrib>Yanez, J. P</creatorcontrib><creatorcontrib>Yoshida, S</creatorcontrib><creatorcontrib>Yuan, T</creatorcontrib><collection>Ghent University Academic Bibliography</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Adams, J</au><au>Aguilar, J. A</au><au>Anderson, T</au><au>Ansseau, I</au><au>Bagherpour, H</au><au>Balagopal, A</au><au>Tjus, J. Becker</au><au>BenZvi, S</au><au>Blaufuss, E</au><au>Blot, S</au><au>Bourbeau, J</au><au>Bradascio, F</au><au>Braun, J</au><au>Busse, R. S</au><au>Classen, L</au><au>Conrad, J. M</au><au>Coppin, P</au><au>Correa, P</au><au>DeVries, K. D</au><au>de Wasseige, G</au><au>de With, M</au><au>DeYoung, T</au><au>Dujmovic, H</au><au>Dvorak, E</au><au>Engel, R</au><au>Filimonov, K</au><au>Friedman, E</au><au>Fritz, A</au><au>Garrappa, S</au><au>Halve, L</au><au>Haungs, A</au><au>Helbing, K</au><au>Henningsen, F</au><au>Hickford, S</au><au>Hill, G. C</au><au>Hoinka, T</au><au>Huang, F</au><au>Huber, T</au><au>Hussain, R</au><au>In, S</au><au>Iovine, N</au><au>Karl, M</au><au>Karle, A</au><au>Kopper, S</au><au>Koskinen, D. J</au><au>Kulacz, N</au><au>Kyriacou, A</au><au>Liu, Q. R</au><au>Lohfink, E</au><au>Lu, L</au><au>Mahn, K. B. M</au><au>Mallik, P</au><au>Meures, T</au><au>Morse, R</au><au>Moulai, M</au><au>Nisa, M. U</au><au>Nygren, D. R</au><au>Olivas, A</au><au>O'Murchadha, A</au><au>Palczewski, T</au><au>Pandya, H</au><au>Peiffer, P</au><au>Pizzuto, A</au><au>Raissi, A</au><au>Rawlins, K</au><au>Robertson, S</au><au>Rott, C</au><au>Safa, I</au><au>Sandroos, J</au><au>Santander, M</au><au>Schneider, J</au><au>Schroder, F. G</au><au>Schumacher, L</au><au>Sclafani, S</au><au>Soedingrekso, J</au><au>Spiering, C</au><au>Stezelberger, T</au><au>Stossl, A</au><au>Stuttard, T</au><au>Sullivan, G. W</au><au>Taboada, I</au><au>Tonnis, C</au><au>Trettin, A</au><au>Tung, C. F</au><au>Turcati, A</au><au>Turcotte, R</au><au>Elorrieta, M. A. Unland</au><au>Usner, M</au><au>van Eijndhoven, N</au><au>Wallace, A</au><au>Watson, T. B</au><au>Weaver, C</au><au>Wendt, C</au><au>Wood, J</au><au>Woschnagg, K</au><au>Wrede, G</au><au>Xu, D. L</au><au>Yanez, J. P</au><au>Yoshida, S</au><au>Yuan, T</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Computational techniques for the analysis of small signals in high-statistics neutrino oscillation experiments</atitle><date>2020</date><risdate>2020</risdate><issn>0168-9002</issn><issn>1872-9576</issn><abstract>The current and upcoming generation of Very Large Volume Neutrino Telescopes - collecting unprecedented quantities of neutrino events - can be used to explore subtle effects in oscillation physics, such as (but not restricted to) the neutrino mass ordering. The sensitivity of an experiment to these effects can be estimated from Monte Carlo simulations. With the high number of events that will be collected, there is a trade-off between the computational expense of running such simulations and the inherent statistical uncertainty in the determined values. In such a scenario, it becomes impractical to produce and use adequately-sized sets of simulated events with traditional methods, such as Monte Carlo weighting. In this work we present a staged approach to the generation of expected distributions of observables in order to overcome these challenges. By combining multiple integration and smoothing techniques which address limited statistics from simulation it arrives at reliable analysis results using modest computational resources.</abstract><oa>free_for_read</oa></addata></record>
fulltext	fulltext
identifier	ISSN: 0168-9002
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issn	0168-9002 1872-9576
language	eng
recordid	cdi_ghent_librecat_oai_archive_ugent_be_8705917
source	Ghent University Academic Bibliography; Elsevier ScienceDirect Journals
subjects	Data analysis Detector FVLV nu T KDE MATTER Monte Carlo Neutrino Neutrino mass ordering Physics and Astronomy Smoothing Statistics
title	Computational techniques for the analysis of small signals in high-statistics neutrino oscillation experiments
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