Probing neutrino-light-quark effective scalar interactions from neutrino masses

16 Jul 2026, 14:52
12m
深圳厅 (2号楼二楼)

深圳厅

2号楼二楼

Speaker

Mr 丰之 陈 (暨南大学)

Description

In this work, we use neutrino masses as a probe of the neutrino-light-quark effective scalar interactions. It is found that neutrinos can acquire masses not only from the usual light quark loop corrections but also from the light quark condensates. The latter contribution has been overlooked in the literature. We show that both contributions are comparable for operators involving $u$ and $d$ quarks, while quark loop corrections dominate for operators involving the $s$ quark. Using the low-energy effective field theory extended with light right-handed neutrinos and matching to chiral perturbation theory, we systematically analyze these contributions, deriving constraints on the corresponding Wilson coefficients from neutrino mass bounds, coherent elastic neutrino-nucleus scattering, and light pseudoscalar meson invisible decays. Our analysis shows that electron neutrino
mass measurements provide the most stringent constraints on these scalar couplings, significantly improving upon limits from other observables. The results highlight the importance of including both perturbative and nonperturbative contributions in complete phenomenological analyses of neutrino mass generation mechanisms.

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Primary authors

Mr 丰之 陈 (暨南大学) Mr 俊霖 黄 (暨南大学) Mr 繁荣 徐

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