Gravitational chargegenesis

arXiv - PHYS - High Energy Physics - Theory Pub Date : 2024-09-16 DOI:arxiv-2409.10605

Martin A. Mojahed, Kai Schmitz, Xun-Jie Xu

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Abstract

Wash-in leptogenesis is an attractive mechanism to produce the baryon asymmetry of the Universe. It treats right-handed-neutrino interactions as spectator processes, on the same footing as electroweak sphalerons, that reprocess primordial charge asymmetries in the thermal plasma into a baryon-minus-lepton asymmetry. The origin of these primordial charges must be accounted for by new $CP$-violating dynamics at very high energies. In this paper, we propose such a scenario of chargegenesis that, unlike earlier proposals, primarily relies on new interactions in the gravitational sector. We point out that a coupling of a conserved current to the divergence of the Ricci scalar during reheating can lead to nonzero effective chemical potentials in the plasma that, together with a suitable charge-violating interaction, can result in the production of a primordial charge asymmetry. Gravitational chargegenesis represents a substantial generalization of the idea of gravitational baryogenesis. We provide a detailed analysis of a generic and minimal realization that is consistent with inflation and show that it can successfully explain the baryon asymmetry of the Universe.

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引力电荷成因

洗入式轻子发生是产生宇宙重子不对称的一种有吸引力的机制。它将右旋中微子相互作用视为与电弱闪子相同的旁观者过程，将热等离子体中的原始电荷不对称性加工成重子-轻轻子不对称性。这些原始电荷的起源必须在极高能量下通过新的违反 $CP$ 的动力学来解释。在本文中，我们提出了这样一种电荷起源方案，与先前的方案不同，它主要依赖于引力部门的新相互作用。我们指出，在再加热过程中，守恒电流与里奇卡尔发散的耦合会导致等离子体内的非零有效化学势，再加上合适的电荷破坏相互作用，就会产生原始电荷不对称。引力电荷发生是对引力重力发生思想的实质性概括。我们详细分析了与暴胀一致的一般和最小实现，并证明它能成功解释宇宙的重子不对称现象。

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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arXiv - PHYS - High Energy Physics - Theory

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