Searching for non-unitary neutrino oscillations in the present T2K and NO[Formula omitted]A data

The mixing of three active neutrino flavors is parameterized by the unitary PMNS matrix. If there are more than three neutrino flavors and if the extra generations are heavy iso-singlets, the effective [Formula omitted] mixing matrix for the three active neutrinos will be non-unitary. We have analyz...

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Veröffentlicht in:	The European physical journal. C, Particles and fields Particles and fields, 2021-05, Vol.81 (5)
Hauptverfasser:	Miranda, Luis Salvador, Pasquini, Pedro, Rahaman, Ushak, Razzaque, Soebur
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description	The mixing of three active neutrino flavors is parameterized by the unitary PMNS matrix. If there are more than three neutrino flavors and if the extra generations are heavy iso-singlets, the effective [Formula omitted] mixing matrix for the three active neutrinos will be non-unitary. We have analyzed the latest T2K and NO [Formula omitted]A data with the hypothesis of non-unitary mixing of the active neutrinos. We found that the 2019 NO [Formula omitted]A data slightly (at [Formula omitted] CL) prefer the non-unitary mixing over unitary mixing. In fact, allowing the non-unitary mixing brings the NO [Formula omitted]A best-fit point in the [Formula omitted] plane closer to the T2K best-fit point. The 2019 T2K data, on the other hand, cannot rule out any of the two mixing schemes. A combined analysis of the NO [Formula omitted]A and T2K 2019 data prefers the non-unitary mixing at [Formula omitted] CL. We derive constraints on the non-unitary mixing parameters using the best-fit to the combined NO [Formula omitted]A and T2K data. These constraints are weaker than previously found. The latest 2020 data from both the experiments prefer non-unitarity over unitary mixing at [Formula omitted] CL. The combined analysis prefers non-unitarity at [Formula omitted] CL. The stronger tension, which exists between the latest 2020 data of the two experiments, also gets reduced with non-unitary analysis.
doi_str_mv	10.1140/epjc/s10052-021-09227-0
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If there are more than three neutrino flavors and if the extra generations are heavy iso-singlets, the effective [Formula omitted] mixing matrix for the three active neutrinos will be non-unitary. We have analyzed the latest T2K and NO [Formula omitted]A data with the hypothesis of non-unitary mixing of the active neutrinos. We found that the 2019 NO [Formula omitted]A data slightly (at [Formula omitted] CL) prefer the non-unitary mixing over unitary mixing. In fact, allowing the non-unitary mixing brings the NO [Formula omitted]A best-fit point in the [Formula omitted] plane closer to the T2K best-fit point. The 2019 T2K data, on the other hand, cannot rule out any of the two mixing schemes. A combined analysis of the NO [Formula omitted]A and T2K 2019 data prefers the non-unitary mixing at [Formula omitted] CL. We derive constraints on the non-unitary mixing parameters using the best-fit to the combined NO [Formula omitted]A and T2K data. These constraints are weaker than previously found. The latest 2020 data from both the experiments prefer non-unitarity over unitary mixing at [Formula omitted] CL. The combined analysis prefers non-unitarity at [Formula omitted] CL. The stronger tension, which exists between the latest 2020 data of the two experiments, also gets reduced with non-unitary analysis.</description><identifier>ISSN: 1434-6044</identifier><identifier>EISSN: 1434-6052</identifier><identifier>DOI: 10.1140/epjc/s10052-021-09227-0</identifier><language>eng</language><publisher>Springer</publisher><ispartof>The European physical journal. 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These constraints are weaker than previously found. The latest 2020 data from both the experiments prefer non-unitarity over unitary mixing at [Formula omitted] CL. The combined analysis prefers non-unitarity at [Formula omitted] CL. 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C, Particles and fields</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Miranda, Luis Salvador</au><au>Pasquini, Pedro</au><au>Rahaman, Ushak</au><au>Razzaque, Soebur</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Searching for non-unitary neutrino oscillations in the present T2K and NO[Formula omitted]A data</atitle><jtitle>The European physical journal. C, Particles and fields</jtitle><date>2021-05-01</date><risdate>2021</risdate><volume>81</volume><issue>5</issue><issn>1434-6044</issn><eissn>1434-6052</eissn><abstract>The mixing of three active neutrino flavors is parameterized by the unitary PMNS matrix. If there are more than three neutrino flavors and if the extra generations are heavy iso-singlets, the effective [Formula omitted] mixing matrix for the three active neutrinos will be non-unitary. We have analyzed the latest T2K and NO [Formula omitted]A data with the hypothesis of non-unitary mixing of the active neutrinos. We found that the 2019 NO [Formula omitted]A data slightly (at [Formula omitted] CL) prefer the non-unitary mixing over unitary mixing. In fact, allowing the non-unitary mixing brings the NO [Formula omitted]A best-fit point in the [Formula omitted] plane closer to the T2K best-fit point. The 2019 T2K data, on the other hand, cannot rule out any of the two mixing schemes. A combined analysis of the NO [Formula omitted]A and T2K 2019 data prefers the non-unitary mixing at [Formula omitted] CL. We derive constraints on the non-unitary mixing parameters using the best-fit to the combined NO [Formula omitted]A and T2K data. These constraints are weaker than previously found. The latest 2020 data from both the experiments prefer non-unitarity over unitary mixing at [Formula omitted] CL. The combined analysis prefers non-unitarity at [Formula omitted] CL. 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title	Searching for non-unitary neutrino oscillations in the present T2K and NO[Formula omitted]A data
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