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Main Authors: Ma, Zhi-peng, Wang, Kai
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.03904
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author Ma, Zhi-peng
Wang, Kai
author_facet Ma, Zhi-peng
Wang, Kai
contents Quasi-periodic eruptions (QPEs) are a class of X-ray flaring phenomena that occur at the centers of galactic nuclei and are likely to arise from repeated interactions between a star and an accretion disk. This work investigates whether such disk-crossing events can accelerate protons and generate detectable high-energy neutrinos. Based on observed QPE luminosities, recurrence periods, and flare durations, the stellar motion parameters and the disk properties are evaluated. We consider proton acceleration during the breakout phase and evaluate neutrino production, accounting for both $pp$ and $pγ$ interactions. Applying the method to ten observed QPE sources, we estimate the neutrino fluence accumulated over a 10-year observation period and compute the corresponding detection numbers for IceCube and IceCube-Gen2. Our analysis indicates that protons can be accelerated up to several tens of TeV, and neutrino production is mostly confined below $\sim 10~\mathrm{TeV}$. The resulting optimized neutrino fluence spans from $ 7.0 \times 10^{-7} $ to $1.5 \times 10^{-4}~\mathrm{GeV~cm^{-2}}$ for these ten QPE sources. We find that the expected neutrino detection number for a single QPE source is low, and the expected neutrino detection number would approach unity only for the most promising QPE source occurring at a distance closer than a few Mpc. Next-generation neutrino telescopes with better detection sensitivities at $\lesssim \rm TeV$ can significantly improve the capture capacity of the cumulative neutrino signal from the QPE population.
format Preprint
id arxiv_https___arxiv_org_abs_2509_03904
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Can Quasi-periodic Eruptions Produce Detectable High Energy Neutrinos?
Ma, Zhi-peng
Wang, Kai
High Energy Astrophysical Phenomena
Quasi-periodic eruptions (QPEs) are a class of X-ray flaring phenomena that occur at the centers of galactic nuclei and are likely to arise from repeated interactions between a star and an accretion disk. This work investigates whether such disk-crossing events can accelerate protons and generate detectable high-energy neutrinos. Based on observed QPE luminosities, recurrence periods, and flare durations, the stellar motion parameters and the disk properties are evaluated. We consider proton acceleration during the breakout phase and evaluate neutrino production, accounting for both $pp$ and $pγ$ interactions. Applying the method to ten observed QPE sources, we estimate the neutrino fluence accumulated over a 10-year observation period and compute the corresponding detection numbers for IceCube and IceCube-Gen2. Our analysis indicates that protons can be accelerated up to several tens of TeV, and neutrino production is mostly confined below $\sim 10~\mathrm{TeV}$. The resulting optimized neutrino fluence spans from $ 7.0 \times 10^{-7} $ to $1.5 \times 10^{-4}~\mathrm{GeV~cm^{-2}}$ for these ten QPE sources. We find that the expected neutrino detection number for a single QPE source is low, and the expected neutrino detection number would approach unity only for the most promising QPE source occurring at a distance closer than a few Mpc. Next-generation neutrino telescopes with better detection sensitivities at $\lesssim \rm TeV$ can significantly improve the capture capacity of the cumulative neutrino signal from the QPE population.
title Can Quasi-periodic Eruptions Produce Detectable High Energy Neutrinos?
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2509.03904