Supernova Preshock Neutronization Burst as a Probe of Nonstandard Neutrino Interactions

A core-collapse supernova (CCSN) provides a unique astrophysical site for studying neutrino–matter interactions. Prior to the shock-breakout neutrino burst during the collapse of the iron core, a preshock ν e burst arises from the electron capture of nuclei and it is sensitive to the low-energy cohe...

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Bibliographic Details
Published in:Astrophysical journal. Letters 2021-12, Vol.923 (2), p.L26
Main Authors: Huang, Xu-Run, Zha, Shuai, Chen, Lie-Wen
Format: Article
Language:English
Subjects:
Astrophysics
Beta decay
Coherent scattering
Collapse
Electron capture
Luminosity
Neutrinos
Opacity
Physics
Supernova
Supernova neutrinos
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Summary:A core-collapse supernova (CCSN) provides a unique astrophysical site for studying neutrino–matter interactions. Prior to the shock-breakout neutrino burst during the collapse of the iron core, a preshock ν e burst arises from the electron capture of nuclei and it is sensitive to the low-energy coherent elastic neutrino–nucleus scattering (CE ν NS) which dominates the neutrino opacity. Since the CE ν NS depends strongly on nonstandard neutrino interactions (NSIs), which are completely beyond the standard model and yet to be determined, the detection of the preshock burst thus provides a clean way to extract the NSI information. Within the spherically symmetric general-relativistic hydrodynamic simulation for the CCSN, we investigate the NSI effects on the preshock burst. We find that the NSI can maximally enhance the peak luminosity of the preshock burst almost by a factor of three, reaching a value comparable to that of the shock-breakout burst. Future detection of the preshock burst will have critical implications on astrophysics, neutrino physics, and physics beyond the standard model.
ISSN:2041-8205
2041-8213
DOI:10.3847/2041-8213/ac4014