热eptogenesis

arXiv - PHYS - High Energy Physics - Phenomenology Pub Date : 2024-09-13 DOI:arxiv-2409.09113

Michael J. Baker, Ansh Bhatnagar, Djuna Croon, Jessica Turner

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引用次数: 0

摘要

我们研究了一类轻微中微子发生情景，在这类情景中，包含最轻右旋中微子的扇区在一个温度$T_{N_1} > T_text{SM}$的条件下建立了动力学平衡。> 其中$T_\text{SM}$是标准模型扇区的温度。我们研究了实现这种 "热轻生 "的再加热过程，以及维持动力学和化学平衡的条件。我们推导并求解了两组演化方程，这取决于热扇区内是否存在化学平衡，并对基准方案进行了数值求解。我们将这一模型的可行参数空间与带有热初始条件的标准轻生成情景进行了比较，发现热轻生成解决了标准情景中存在的中微子和希格斯质量微调问题。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Hot Leptogenesis

We investigate a class of leptogenesis scenarios in which the sector containing the lightest right-handed neutrino establishes kinetic equilibrium at a temperature $T_{N_1} > T_\text{SM}$, where $T_\text{SM}$ is the temperature of the Standard Model sector. We study the reheating processes which realise this "hot leptogenesis" and the conditions under which kinetic and chemical equilibrium can be maintained. We derive and solve two sets of evolution equations, depending on the presence of chemical equilibrium within the hot sector, and numerically solve these for benchmark scenarios. We compare the viable parameter space of this model with standard leptogenesis scenarios with a thermal initial condition and find that hot leptogenesis resolves the neutrino and Higgs mass fine-tuning problems present in the standard scenario.

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arXiv - PHYS - High Energy Physics - Phenomenology

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