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Main Authors: Das, Sudipta, Reno, Mary Hall
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.16510
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author Das, Sudipta
Reno, Mary Hall
author_facet Das, Sudipta
Reno, Mary Hall
contents A new neutrino-matter interaction can potentially affect neutrino propagation through matter. In this work, we explore the impact of a flavor-conserving scalar-mediated non-standard neutrino interaction in the supernova neutrino flux. We observe that the presence of a scalar interaction involving muon and tau neutrinos (parameterized as $η_{μμ}$ and $η_{ττ}$, respectively) can invert the neutrino mass eigenstate in which three neutrino flavor states are produced inside the supernova core, resulting in a significant modification of the electron neutrino flux from the supernova reaching the Earth. In the context of the DUNE experiment, we estimate the number of supernova neutrino events in the presence of scalar non-standard neutrino interaction $η_{μμ}$ or $η_{ττ}$ and contrast with the case without scalar-mediated non-standard interactions. Our results indicate that such scalar interactions introduce a new degeneracy in the measurement of neutrino mass ordering from supernova neutrinos. We show how the $\barν_e$ event distribution in Hyper-Kamiokande experiment may help resolve the degeneracy between a model with new scalar interactions for normal ordered neutrino masses and the standard model with inverted mass ordering for a galactic supernova.
format Preprint
id arxiv_https___arxiv_org_abs_2508_16510
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Probing scalar non-standard interaction of supernova neutrinos in next-generation neutrino experiments
Das, Sudipta
Reno, Mary Hall
High Energy Physics - Phenomenology
A new neutrino-matter interaction can potentially affect neutrino propagation through matter. In this work, we explore the impact of a flavor-conserving scalar-mediated non-standard neutrino interaction in the supernova neutrino flux. We observe that the presence of a scalar interaction involving muon and tau neutrinos (parameterized as $η_{μμ}$ and $η_{ττ}$, respectively) can invert the neutrino mass eigenstate in which three neutrino flavor states are produced inside the supernova core, resulting in a significant modification of the electron neutrino flux from the supernova reaching the Earth. In the context of the DUNE experiment, we estimate the number of supernova neutrino events in the presence of scalar non-standard neutrino interaction $η_{μμ}$ or $η_{ττ}$ and contrast with the case without scalar-mediated non-standard interactions. Our results indicate that such scalar interactions introduce a new degeneracy in the measurement of neutrino mass ordering from supernova neutrinos. We show how the $\barν_e$ event distribution in Hyper-Kamiokande experiment may help resolve the degeneracy between a model with new scalar interactions for normal ordered neutrino masses and the standard model with inverted mass ordering for a galactic supernova.
title Probing scalar non-standard interaction of supernova neutrinos in next-generation neutrino experiments
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2508.16510