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Main Authors: Gaba, Riya, Mukherjee, Maitreyee, Bhatnagar, Vipin
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2411.07716
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author Gaba, Riya
Mukherjee, Maitreyee
Bhatnagar, Vipin
author_facet Gaba, Riya
Mukherjee, Maitreyee
Bhatnagar, Vipin
contents Supernovae represent some of the most energetically explosive events in the universe, with a substantial fraction of their released gravitational energy carried away by neutrinos. This study evaluates the sensitivity of three next-generation neutrino detectors which are Deep Underground Neutrino Experiment (DUNE), Hyper-Kamiokande (Hyper-K), and the Jiangmen Underground Neutrino Observatory (JUNO) to supernova neutrinos, specifically focusing on their ability to discern between normal and inverted mass hierarchies. We utilize three different flux models: Bollig, Tamborra and Nakazato, employing the SNEWPY software to simulate the expected neutrino fluxes from core-collapse supernovae. These models highlight the variability in the predictions due to different progenitors and simulation methods. By analyzing the event rates across various interaction channels and implementing the adiabatic Mikheyev-Smirnov-Wolfenstein (MSW) effect on the neutrino flux, we have calculated the expected detection rates for each detector. Our results indicate that sensitivities range from ${\sim}3σ$ to ${\sim}9σ$ for DUNE, ${\sim}4σ$ to ${\sim}16σ$ for Hyper-K and ${\sim}1.7σ$ to ${\sim}6.7σ$ for JUNO depending on distance and flux model, with sensitivity diminishing significantly at larger distances. This work underscores the potential of future neutrino observatories to enhance our understanding of fundamental physics through the study of supernova neutrinos.
format Preprint
id arxiv_https___arxiv_org_abs_2411_07716
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Sensitivity Study of Supernova Neutrinos for Mass Hierarchy
Gaba, Riya
Mukherjee, Maitreyee
Bhatnagar, Vipin
High Energy Physics - Phenomenology
Supernovae represent some of the most energetically explosive events in the universe, with a substantial fraction of their released gravitational energy carried away by neutrinos. This study evaluates the sensitivity of three next-generation neutrino detectors which are Deep Underground Neutrino Experiment (DUNE), Hyper-Kamiokande (Hyper-K), and the Jiangmen Underground Neutrino Observatory (JUNO) to supernova neutrinos, specifically focusing on their ability to discern between normal and inverted mass hierarchies. We utilize three different flux models: Bollig, Tamborra and Nakazato, employing the SNEWPY software to simulate the expected neutrino fluxes from core-collapse supernovae. These models highlight the variability in the predictions due to different progenitors and simulation methods. By analyzing the event rates across various interaction channels and implementing the adiabatic Mikheyev-Smirnov-Wolfenstein (MSW) effect on the neutrino flux, we have calculated the expected detection rates for each detector. Our results indicate that sensitivities range from ${\sim}3σ$ to ${\sim}9σ$ for DUNE, ${\sim}4σ$ to ${\sim}16σ$ for Hyper-K and ${\sim}1.7σ$ to ${\sim}6.7σ$ for JUNO depending on distance and flux model, with sensitivity diminishing significantly at larger distances. This work underscores the potential of future neutrino observatories to enhance our understanding of fundamental physics through the study of supernova neutrinos.
title Sensitivity Study of Supernova Neutrinos for Mass Hierarchy
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2411.07716