原子核的中微子双衰变

M. Horoi
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引用次数: 1

摘要

中微子是一种难以捉摸的粒子,每周都与原子核和电子等离子体相互作用。从强相互作用的观点来看,大多数稳定的原子核可以衰变,释放出中微子或反中微子。弱相互作用的性质对于理解约束粒子物理标准模型的基本对称性是必不可少的。如果观测到中微子双β衰变,将标志着超越标准模型(BSM)的物理学。我们分析了与原子核双β衰变有关的中微子物理。给出了BSM拉格朗日量中不同项对衰减率的贡献,并讨论了它们与实验数据分析的相关性。我们研究了原子核内部高电子密度的中微子混合效应是否会改变无中微子双β衰变半衰期公式,我们发现标准结果成立。中微子是一种难以捉摸的粒子,每周都与原子核和电子等离子体相互作用。从强相互作用的观点来看,大多数稳定的原子核可以衰变,释放出中微子或反中微子。弱相互作用的性质对于理解约束粒子物理标准模型的基本对称性是必不可少的。如果观测到中微子双β衰变,将标志着超越标准模型(BSM)的物理学。我们分析了与原子核双β衰变有关的中微子物理。给出了BSM拉格朗日量中不同项对衰减率的贡献,并讨论了它们与实验数据分析的相关性。我们研究了原子核内部高电子密度的中微子混合效应是否会改变无中微子双β衰变半衰期公式,我们发现标准结果成立。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Neutrinoless double beta decay of atomic nuclei
Neutrinos are elusive particles interacting weekly with the atomic nuclei and electron plasma. Most of the atomic nuclei that are stable from the strong interaction point of view can decay emitting neutrinos or antineutrinos. The properties of weak interaction are essential for the understanding of the fundamental symmetries that constrain the Standard Model of particle physics. Neutrinoless double beta decay, if observed, would signal physics beyond the Standard Model (BSM). We analyze the neutrino physics relevant for the double beta decay of the atomic nuclei. Contributions to the decay rate from different terms in the BSM Lagrangian are presented, and their relevance for the analysis of the experimental data are addressed. We investigate if the neutrino mixing effects in the high electron density inside the atomic nuclei can change the neutrinoless double beta decay half-life formula and we found that the standard result stands.Neutrinos are elusive particles interacting weekly with the atomic nuclei and electron plasma. Most of the atomic nuclei that are stable from the strong interaction point of view can decay emitting neutrinos or antineutrinos. The properties of weak interaction are essential for the understanding of the fundamental symmetries that constrain the Standard Model of particle physics. Neutrinoless double beta decay, if observed, would signal physics beyond the Standard Model (BSM). We analyze the neutrino physics relevant for the double beta decay of the atomic nuclei. Contributions to the decay rate from different terms in the BSM Lagrangian are presented, and their relevance for the analysis of the experimental data are addressed. We investigate if the neutrino mixing effects in the high electron density inside the atomic nuclei can change the neutrinoless double beta decay half-life formula and we found that the standard result stands.
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