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Hauptverfasser: Xiao, Zi-Zhuo, Guo, Gang, Tuniyazi, Tuohuniyazi
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2507.16551
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author Xiao, Zi-Zhuo
Guo, Gang
Tuniyazi, Tuohuniyazi
author_facet Xiao, Zi-Zhuo
Guo, Gang
Tuniyazi, Tuohuniyazi
contents Newborn pulsars resulting from core-collapse supernovae (CCSNe) are promising sources of high-energy (HE) cosmic rays and neutrinos. In this work, we focus on HE neutrinos generated by interactions between protons accelerated in relativistic pulsar winds and SN ejecta. Using a binned likelihood analysis, we evaluate the detection prospects of these neutrinos with IceCube and explore their potential for probing the initial spin period ($P$) and magnetic field strength ($B$) of newborn pulsars. Noticing a degeneracy in neutrino signal with $B/P^2$ across a broad parameter space, we find that HE neutrinos from a galactic newborn pulsar ($d=10$ kpc) with $(B/10^{12}~{\rm G})(P/{\rm ms})^{-2} \gtrsim 0.003$ can be detected at $\gtrsim 3σ$ significance. Even in the absence of a nearby pulsar, the diffuse flux from the cosmologic population of pulsars could be probed by next-generation detectors like IceCube-Gen2 and GRAND200k. For galactic pulsars with $(B/10^{12}~{\rm G})(P/{\rm ms})^{-2} \gtrsim 0.08$, the combination $B/P^2$ can be measured with an accuracy of better than 20\% at the $3σ$ confidence level. Additionally, we show that for pulsars with detectable HE neutrino signals, the emission can be clearly distinguished from neutrinos produced by interactions between SN ejecta and the circumstellar medium, due to their distinct temporal and spectral features.
format Preprint
id arxiv_https___arxiv_org_abs_2507_16551
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Exploring the properties of newborn pulsars with high-energy neutrinos
Xiao, Zi-Zhuo
Guo, Gang
Tuniyazi, Tuohuniyazi
High Energy Astrophysical Phenomena
Newborn pulsars resulting from core-collapse supernovae (CCSNe) are promising sources of high-energy (HE) cosmic rays and neutrinos. In this work, we focus on HE neutrinos generated by interactions between protons accelerated in relativistic pulsar winds and SN ejecta. Using a binned likelihood analysis, we evaluate the detection prospects of these neutrinos with IceCube and explore their potential for probing the initial spin period ($P$) and magnetic field strength ($B$) of newborn pulsars. Noticing a degeneracy in neutrino signal with $B/P^2$ across a broad parameter space, we find that HE neutrinos from a galactic newborn pulsar ($d=10$ kpc) with $(B/10^{12}~{\rm G})(P/{\rm ms})^{-2} \gtrsim 0.003$ can be detected at $\gtrsim 3σ$ significance. Even in the absence of a nearby pulsar, the diffuse flux from the cosmologic population of pulsars could be probed by next-generation detectors like IceCube-Gen2 and GRAND200k. For galactic pulsars with $(B/10^{12}~{\rm G})(P/{\rm ms})^{-2} \gtrsim 0.08$, the combination $B/P^2$ can be measured with an accuracy of better than 20\% at the $3σ$ confidence level. Additionally, we show that for pulsars with detectable HE neutrino signals, the emission can be clearly distinguished from neutrinos produced by interactions between SN ejecta and the circumstellar medium, due to their distinct temporal and spectral features.
title Exploring the properties of newborn pulsars with high-energy neutrinos
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2507.16551