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W4200633906 abstract "Axion-like particles (ALPs) are a class of hypothetical pseudoscalar particles which feebly interact with ordinary matter. The hot plasma of core-collapse supernovae is a possible laboratory to explore physics beyond the standard model including ALPs. Once produced, some of the ALPs can be absorbed by the supernova matter and affect energy transfer. In this study, we calculate the ALP emission in core-collapse supernovae and the backreaction on supernova dynamics consistently. It is found that the stalled bounce shock can be revived if the coupling between ALPs and photons is as high as g_{ag}~10^{-9} GeV^{-1} and the ALP mass is 40-400 MeV. Most of the models result in more energetic explosions than the average observed supernova. While this can be used to place constraints on those ALPs, long-term simulations across multiple progenitors need to be further investigated to place robust limits." @default.
W4200633906 created "2021-12-31" @default.
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W4200633906 creator A5022689338 @default.
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W4200633906 creator A5074726619 @default.
W4200633906 date "2022-03-14" @default.
W4200633906 modified "2023-10-11" @default.
W4200633906 title "Shock revival in core-collapse supernovae assisted by heavy axionlike particles" @default.
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W4200633906 cites W2093943495 @default.
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W4200633906 cites W2212149098 @default.
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W4200633906 cites W2589306530 @default.
W4200633906 cites W2611346121 @default.
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W4200633906 cites W2805253780 @default.
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W4200633906 cites W2953559353 @default.
W4200633906 cites W2973132696 @default.
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W4200633906 cites W3016308819 @default.
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W4200633906 doi "https://doi.org/10.1103/physrevd.105.063009" @default.
W4200633906 hasPublicationYear "2022" @default.
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