Combined sensitivity to the neutrino mass ordering with JUNO, the IceCube Upgrade, and PINGU

The ordering of the neutrino mass eigenstates is one of the fundamental open questions in neutrino physics. While current-generation neutrino oscillation experiments are able to produce moderate indications on this ordering, upcoming experiments of the next generation aim to provide conclusive evide...

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Veröffentlicht in:	arXiv.org 2019-11
Hauptverfasser:	Andeen, K, Auffenberg, J, Barbano, A, Barwick, S W, Bay, R, Besson, D Z, Blaufuss, E, Bourbeau, J, Carver, T, Chirkin, D, Collin, G H, Correa, P, Cross, R, DeLaunay, J J, de Wasseige, G, Diaz, A, Díaz-Vélez, J C, Dujmovic, H, Dunkman, M, Farrag, K, Felde, J, Fox, D, Franckowiak, A, Gallagher, J, Garrappa, S, Gerhardt, L, Ghorbani, K, Glauch, T, Gündüz, M, Halliday, R, Hill, G C, Huang, F, Huber, M, Jonske, F, Karle, A, Katz, U, Kelley, J L, Klein, S R, Köpke, L, Krückl, G, Kulacz, N, Lanfranchi, J L, Lauber, F, Lazar, J P, LoSecco, J, Lozano Mariscal, C J, L Lu, Luszczak, W, Mancina, S, Maunu, R, McNally, F, Meighen-Berger, S, Mockler, D, Momenté, G, Montaruli, T, Moore, R W, Morse, R, Muth, P, Oehler, M, Olivas, A, O'Sullivan, E, Peiffer, P, Porcelli, A, Price, P B, Rea, I C, Relethford, B, Renzi, G, Rott, C, Rysewyk, D, Safa, I, Santander, M, Satalecka, K, Schneider, J, Shaevitz, M H, Shefali, S, Silva, M, Soldin, D, Steuer, A, Strotjohann, N L, Tilav, S, Tomankova, L, Tönnis, C, Trettin, A, B Ty, Unger, E, Unland Elorrieta, M A, N van Eijndhoven, Verpoest, S, Wandkowsky, N, Watson, T B, Weiss, M J, Xu, X W, Bongrand, M, Cabrera, A, Cheng, Y P, Göttel, A S, Malyshkin, Y, Settimo, M, Sterr, T, Yermia, F
Format:	Artikel
Sprache:	eng
Schlagworte:	Eigenvectors Energy spectra Experiments Neutrinos Nuclear energy Nuclear reactors Physics - High Energy Physics - Experiment Physics - Instrumentation and Detectors Reactor cores Sensitivity Strings
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creator	Andeen, K Auffenberg, J Barbano, A Barwick, S W Bay, R Besson, D Z Blaufuss, E Bourbeau, J Carver, T Chirkin, D Collin, G H Correa, P Cross, R DeLaunay, J J de Wasseige, G Diaz, A Díaz-Vélez, J C Dujmovic, H Dunkman, M Farrag, K Felde, J Fox, D Franckowiak, A Gallagher, J Garrappa, S Gerhardt, L Ghorbani, K Glauch, T Gündüz, M Halliday, R Hill, G C Huang, F Huber, M Jonske, F Karle, A Katz, U Kelley, J L Klein, S R Köpke, L Krückl, G Kulacz, N Lanfranchi, J L Lauber, F Lazar, J P LoSecco, J Lozano Mariscal, C J L Lu Luszczak, W Mancina, S Maunu, R McNally, F Meighen-Berger, S Mockler, D Momenté, G Montaruli, T Moore, R W Morse, R Muth, P Oehler, M Olivas, A O'Sullivan, E Peiffer, P Porcelli, A Price, P B Rea, I C Relethford, B Renzi, G Rott, C Rysewyk, D Safa, I Santander, M Satalecka, K Schneider, J Shaevitz, M H Shefali, S Silva, M Soldin, D Steuer, A Strotjohann, N L Tilav, S Tomankova, L Tönnis, C Trettin, A B Ty Unger, E Unland Elorrieta, M A N van Eijndhoven Verpoest, S Wandkowsky, N Watson, T B Weiss, M J Xu, X W Bongrand, M Cabrera, A Cheng, Y P Göttel, A S Malyshkin, Y Settimo, M Sterr, T Yermia, F
description	The ordering of the neutrino mass eigenstates is one of the fundamental open questions in neutrino physics. While current-generation neutrino oscillation experiments are able to produce moderate indications on this ordering, upcoming experiments of the next generation aim to provide conclusive evidence. In this paper we study the combined performance of the two future multi-purpose neutrino oscillation experiments JUNO and the IceCube Upgrade, which employ two very distinct and complementary routes towards the neutrino mass ordering. The approach pursued by the $20\,\mathrm{kt}$ medium-baseline reactor neutrino experiment JUNO consists of a careful investigation of the energy spectrum of oscillated $\bar{\nu}_e$ produced by ten nuclear reactor cores. The IceCube Upgrade, on the other hand, which consists of seven additional densely instrumented strings deployed in the center of IceCube DeepCore, will observe large numbers of atmospheric neutrinos that have undergone oscillations affected by Earth matter. In a joint fit with both approaches, tension occurs between their preferred mass-squared differences $ \Delta m_{31}^{2}=m_{3}^{2}-m_{1}^{2} $ within the wrong mass ordering. In the case of JUNO and the IceCube Upgrade, this allows to exclude the wrong ordering at $>5\sigma$ on a timescale of 3--7 years --- even under circumstances that are unfavorable to the experiments' individual sensitivities. For PINGU, a 26-string detector array designed as a potential low-energy extension to IceCube, the inverted ordering could be excluded within 1.5 years (3 years for the normal ordering) in a joint analysis.
doi_str_mv	10.48550/arxiv.1911.06745
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While current-generation neutrino oscillation experiments are able to produce moderate indications on this ordering, upcoming experiments of the next generation aim to provide conclusive evidence. In this paper we study the combined performance of the two future multi-purpose neutrino oscillation experiments JUNO and the IceCube Upgrade, which employ two very distinct and complementary routes towards the neutrino mass ordering. The approach pursued by the $20\,\mathrm{kt}$ medium-baseline reactor neutrino experiment JUNO consists of a careful investigation of the energy spectrum of oscillated $\bar{\nu}_e$ produced by ten nuclear reactor cores. The IceCube Upgrade, on the other hand, which consists of seven additional densely instrumented strings deployed in the center of IceCube DeepCore, will observe large numbers of atmospheric neutrinos that have undergone oscillations affected by Earth matter. In a joint fit with both approaches, tension occurs between their preferred mass-squared differences $ \Delta m_{31}^{2}=m_{3}^{2}-m_{1}^{2} $ within the wrong mass ordering. In the case of JUNO and the IceCube Upgrade, this allows to exclude the wrong ordering at $>5\sigma$ on a timescale of 3--7 years --- even under circumstances that are unfavorable to the experiments' individual sensitivities. For PINGU, a 26-string detector array designed as a potential low-energy extension to IceCube, the inverted ordering could be excluded within 1.5 years (3 years for the normal ordering) in a joint analysis.</description><identifier>EISSN: 2331-8422</identifier><identifier>DOI: 10.48550/arxiv.1911.06745</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Eigenvectors ; Energy spectra ; Experiments ; Neutrinos ; Nuclear energy ; Nuclear reactors ; Physics - High Energy Physics - Experiment ; Physics - Instrumentation and Detectors ; Reactor cores ; Sensitivity ; Strings</subject><ispartof>arXiv.org, 2019-11</ispartof><rights>2019. This work is published under http://arxiv.org/licenses/nonexclusive-distrib/1.0/ (the “License”). 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Y</creatorcontrib><creatorcontrib>Settimo, M</creatorcontrib><creatorcontrib>Sterr, T</creatorcontrib><creatorcontrib>Yermia, F</creatorcontrib><title>Combined sensitivity to the neutrino mass ordering with JUNO, the IceCube Upgrade, and PINGU</title><title>arXiv.org</title><description>The ordering of the neutrino mass eigenstates is one of the fundamental open questions in neutrino physics. While current-generation neutrino oscillation experiments are able to produce moderate indications on this ordering, upcoming experiments of the next generation aim to provide conclusive evidence. In this paper we study the combined performance of the two future multi-purpose neutrino oscillation experiments JUNO and the IceCube Upgrade, which employ two very distinct and complementary routes towards the neutrino mass ordering. The approach pursued by the $20\,\mathrm{kt}$ medium-baseline reactor neutrino experiment JUNO consists of a careful investigation of the energy spectrum of oscillated $\bar{\nu}_e$ produced by ten nuclear reactor cores. The IceCube Upgrade, on the other hand, which consists of seven additional densely instrumented strings deployed in the center of IceCube DeepCore, will observe large numbers of atmospheric neutrinos that have undergone oscillations affected by Earth matter. In a joint fit with both approaches, tension occurs between their preferred mass-squared differences $ \Delta m_{31}^{2}=m_{3}^{2}-m_{1}^{2} $ within the wrong mass ordering. In the case of JUNO and the IceCube Upgrade, this allows to exclude the wrong ordering at $>5\sigma$ on a timescale of 3--7 years --- even under circumstances that are unfavorable to the experiments' individual sensitivities. For PINGU, a 26-string detector array designed as a potential low-energy extension to IceCube, the inverted ordering could be excluded within 1.5 years (3 years for the normal ordering) in a joint analysis.</description><subject>Eigenvectors</subject><subject>Energy spectra</subject><subject>Experiments</subject><subject>Neutrinos</subject><subject>Nuclear energy</subject><subject>Nuclear reactors</subject><subject>Physics - High Energy Physics - Experiment</subject><subject>Physics - Instrumentation and Detectors</subject><subject>Reactor 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arXiv.org</general><scope>8FE</scope><scope>8FG</scope><scope>ABJCF</scope><scope>ABUWG</scope><scope>AFKRA</scope><scope>AZQEC</scope><scope>BENPR</scope><scope>BGLVJ</scope><scope>CCPQU</scope><scope>DWQXO</scope><scope>HCIFZ</scope><scope>L6V</scope><scope>M7S</scope><scope>PIMPY</scope><scope>PQEST</scope><scope>PQQKQ</scope><scope>PQUKI</scope><scope>PRINS</scope><scope>PTHSS</scope><scope>GOX</scope></search><sort><creationdate>20191115</creationdate><title>Combined sensitivity to the neutrino mass ordering with JUNO, the IceCube Upgrade, and PINGU</title><author>Andeen, K ; Auffenberg, J ; Barbano, A ; Barwick, S W ; Bay, R ; Besson, D Z ; Blaufuss, E ; Bourbeau, J ; Carver, T ; Chirkin, D ; Collin, G H ; Correa, P ; Cross, R ; DeLaunay, J J ; de Wasseige, G ; Diaz, A ; Díaz-Vélez, J C ; Dujmovic, H ; Dunkman, M ; Farrag, K ; Felde, J ; Fox, D ; Franckowiak, A ; Gallagher, J ; Garrappa, S ; Gerhardt, L ; Ghorbani, K ; Glauch, T ; Gündüz, M ; Halliday, R ; Hill, G C ; Huang, F ; Huber, M ; Jonske, F ; Karle, A ; Katz, U ; Kelley, J L ; Klein, S R ; Köpke, L ; Krückl, G ; Kulacz, N ; Lanfranchi, J L ; Lauber, F ; Lazar, J P ; LoSecco, J ; Lozano Mariscal, C J ; L Lu ; Luszczak, W ; Mancina, S ; Maunu, R ; McNally, F ; Meighen-Berger, S ; Mockler, D ; Momenté, G ; Montaruli, T ; Moore, R W ; Morse, R ; Muth, P ; Oehler, M ; Olivas, A ; O'Sullivan, E ; Peiffer, P ; Porcelli, A ; Price, P B ; Rea, I C ; Relethford, B ; Renzi, G ; Rott, C ; Rysewyk, D ; Safa, I ; Santander, M ; Satalecka, K ; Schneider, J ; Shaevitz, M H ; Shefali, S ; Silva, M ; Soldin, D ; Steuer, A ; Strotjohann, N L ; Tilav, S ; Tomankova, L ; Tönnis, C ; Trettin, A ; B Ty ; Unger, E ; Unland Elorrieta, M A ; N van Eijndhoven ; Verpoest, S ; Wandkowsky, N ; Watson, T B ; Weiss, M J ; Xu, X W ; Bongrand, M ; Cabrera, A ; Cheng, Y P ; Göttel, A S ; Malyshkin, Y ; Settimo, M ; Sterr, T ; Yermia, F</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a522-62e899f815096be37c44b79797321c31d7dbc4ae231168ceedbbf48c0ed0cac33</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2019</creationdate><topic>Eigenvectors</topic><topic>Energy spectra</topic><topic>Experiments</topic><topic>Neutrinos</topic><topic>Nuclear energy</topic><topic>Nuclear reactors</topic><topic>Physics - High Energy Physics - Experiment</topic><topic>Physics - Instrumentation and Detectors</topic><topic>Reactor cores</topic><topic>Sensitivity</topic><topic>Strings</topic><toplevel>online_resources</toplevel><creatorcontrib>Andeen, K</creatorcontrib><creatorcontrib>Auffenberg, J</creatorcontrib><creatorcontrib>Barbano, A</creatorcontrib><creatorcontrib>Barwick, S W</creatorcontrib><creatorcontrib>Bay, R</creatorcontrib><creatorcontrib>Besson, D Z</creatorcontrib><creatorcontrib>Blaufuss, E</creatorcontrib><creatorcontrib>Bourbeau, 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Central China</collection><collection>Engineering Collection</collection><collection>arXiv.org</collection><jtitle>arXiv.org</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Andeen, K</au><au>Auffenberg, J</au><au>Barbano, A</au><au>Barwick, S W</au><au>Bay, R</au><au>Besson, D Z</au><au>Blaufuss, E</au><au>Bourbeau, J</au><au>Carver, T</au><au>Chirkin, D</au><au>Collin, G H</au><au>Correa, P</au><au>Cross, R</au><au>DeLaunay, J J</au><au>de Wasseige, G</au><au>Diaz, A</au><au>Díaz-Vélez, J C</au><au>Dujmovic, H</au><au>Dunkman, M</au><au>Farrag, K</au><au>Felde, J</au><au>Fox, D</au><au>Franckowiak, A</au><au>Gallagher, J</au><au>Garrappa, S</au><au>Gerhardt, L</au><au>Ghorbani, K</au><au>Glauch, T</au><au>Gündüz, M</au><au>Halliday, R</au><au>Hill, G C</au><au>Huang, F</au><au>Huber, M</au><au>Jonske, F</au><au>Karle, A</au><au>Katz, U</au><au>Kelley, J L</au><au>Klein, S R</au><au>Köpke, L</au><au>Krückl, G</au><au>Kulacz, N</au><au>Lanfranchi, J L</au><au>Lauber, F</au><au>Lazar, J P</au><au>LoSecco, J</au><au>Lozano Mariscal, C J</au><au>L Lu</au><au>Luszczak, W</au><au>Mancina, S</au><au>Maunu, R</au><au>McNally, F</au><au>Meighen-Berger, S</au><au>Mockler, D</au><au>Momenté, G</au><au>Montaruli, T</au><au>Moore, R W</au><au>Morse, R</au><au>Muth, P</au><au>Oehler, M</au><au>Olivas, A</au><au>O'Sullivan, E</au><au>Peiffer, P</au><au>Porcelli, A</au><au>Price, P B</au><au>Rea, I C</au><au>Relethford, B</au><au>Renzi, G</au><au>Rott, C</au><au>Rysewyk, D</au><au>Safa, I</au><au>Santander, M</au><au>Satalecka, K</au><au>Schneider, J</au><au>Shaevitz, M H</au><au>Shefali, S</au><au>Silva, M</au><au>Soldin, D</au><au>Steuer, A</au><au>Strotjohann, N L</au><au>Tilav, S</au><au>Tomankova, L</au><au>Tönnis, C</au><au>Trettin, A</au><au>B Ty</au><au>Unger, E</au><au>Unland Elorrieta, M A</au><au>N van Eijndhoven</au><au>Verpoest, S</au><au>Wandkowsky, N</au><au>Watson, T B</au><au>Weiss, M J</au><au>Xu, X W</au><au>Bongrand, M</au><au>Cabrera, A</au><au>Cheng, Y P</au><au>Göttel, A S</au><au>Malyshkin, Y</au><au>Settimo, M</au><au>Sterr, T</au><au>Yermia, F</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Combined sensitivity to the neutrino mass ordering with JUNO, the IceCube Upgrade, and PINGU</atitle><jtitle>arXiv.org</jtitle><date>2019-11-15</date><risdate>2019</risdate><eissn>2331-8422</eissn><abstract>The ordering of the neutrino mass eigenstates is one of the fundamental open questions in neutrino physics. While current-generation neutrino oscillation experiments are able to produce moderate indications on this ordering, upcoming experiments of the next generation aim to provide conclusive evidence. In this paper we study the combined performance of the two future multi-purpose neutrino oscillation experiments JUNO and the IceCube Upgrade, which employ two very distinct and complementary routes towards the neutrino mass ordering. The approach pursued by the $20\,\mathrm{kt}$ medium-baseline reactor neutrino experiment JUNO consists of a careful investigation of the energy spectrum of oscillated $\bar{\nu}_e$ produced by ten nuclear reactor cores. The IceCube Upgrade, on the other hand, which consists of seven additional densely instrumented strings deployed in the center of IceCube DeepCore, will observe large numbers of atmospheric neutrinos that have undergone oscillations affected by Earth matter. In a joint fit with both approaches, tension occurs between their preferred mass-squared differences $ \Delta m_{31}^{2}=m_{3}^{2}-m_{1}^{2} $ within the wrong mass ordering. In the case of JUNO and the IceCube Upgrade, this allows to exclude the wrong ordering at $>5\sigma$ on a timescale of 3--7 years --- even under circumstances that are unfavorable to the experiments' individual sensitivities. For PINGU, a 26-string detector array designed as a potential low-energy extension to IceCube, the inverted ordering could be excluded within 1.5 years (3 years for the normal ordering) in a joint analysis.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><doi>10.48550/arxiv.1911.06745</doi><oa>free_for_read</oa></addata></record>
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subjects	Eigenvectors Energy spectra Experiments Neutrinos Nuclear energy Nuclear reactors Physics - High Energy Physics - Experiment Physics - Instrumentation and Detectors Reactor cores Sensitivity Strings
title	Combined sensitivity to the neutrino mass ordering with JUNO, the IceCube Upgrade, and PINGU
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