## 摘要

The U(1)_{Lμ−Lτ} model is one of the simplest anomaly free models to feature a new gauge boson Z^{′} by extending the Standard Model (SM) group G_{SM} ≡ SU(3)_{QCD} ⊗ SU(2)_{Weak} ⊗ U(1)_{Y} → G_{SM} ⊗ U(1)_{Lμ−Lτ}. This hypothetical new gauge boson Z^{′} could affect the cooling mechanism of core-collapse supernovae (CCSNe). The production of Z^{′} might over contribute to the energy loss of a CCSN depending on the magnitude of the coupling between Z^{′} and μ, τ leptons. Consequently, the production of SN neutrino might be affected and contradict the recent SN neutrino observation, SN 1987A. We calculate the Z^{′} production and absorption/decay rates through pair-coalescence, semi-Compton, loop-Bremsstrahlung from proton-neutron scattering, and their inverse processes in a benchmark SN simulation SFHo18.8 (Thomas Janka et al., Phys. Rev. Lett. 125, 051104 (2020)) and put constraints on the parameter space (m_{Z}′, g_{Z}′) in this new gauged U(1)_{Lμ−Lτ} model. Although such constraints have been studied in previous literature, our study gives more stringent constraints on the model by carefully considering the competition between Z^{′} production and absorption/decay effects to Z^{′} luminosity at the very outermost shell of the neutrino sphere. We point out that Z^{′} luminosity will tend to a constant plateau value depending on m_{Z}′ instead of monotonically decreasing down to zero as the coupling constant increases. This plateau phenomenon can be understood by physical arguments and justified by numerical calculations. We found that the plateau value of Z^{′} luminosity will become greater than Raffelt's criterion when m_{Z}′ is lower than a specific value ∼ 2 eV. For m_{Z}′ < 2 eV, the so-called trapping limit shall disappear completely. We stress that the plateau behavior of Z^{′} luminosity in the large coupling limit should also occur for other BSM models that introduce new light bosons. Hence our work has extended applications.

原文 | 英語 |
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文章編號 | 1121 |

期刊 | Proceedings of Science |

卷 | 414 |

出版狀態 | 已出版 - 2022 |

事件 | 41st International Conference on High Energy Physics, ICHEP 2022 - Bologna, 意大利 持續時間: 06 07 2022 → 13 07 2022 |

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## 指紋

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