Gravitational baryogenesis without CPT violation

TL;DR

This paper demonstrates that nonminimal curvature-matter couplings in gravity theories can naturally generate baryon asymmetry without CPT violation, satisfying Sakharov's conditions through gravitational effects and particle creation in the early Universe.

Contribution

It shows that simple extensions of General Relativity with curvature-matter couplings can produce baryon asymmetry without CPT violation, addressing previous cosmological issues.

Findings

Baryon asymmetry can be generated without CPT violation.

Curvature derivatives can be neglected, avoiding related problems.

Trace anomaly and scalar fields amplify baryon asymmetry at high temperatures.

Abstract

We show that in theories with nonminimal curvature-matter couplings up to first order in the curvature, baryon number (B) conservation and CP are automatically violated, provided that the curvature scalar and its gradient do not vanish. Together with the associated gravitationally induced particle creation in a cosmological framework, which is an essentially out-of-equilibrium process, this implies that all of Sakharov's conditions are satisfied in the simplest extension of General Relativity, without the need of CPT violation. Here, derivatives of the curvature can be disregarded, thus evading the potential problems associated with the Gravitational Baryogenesis (GB) model in a cosmological context. Thanks to the particle creation pressure and the trace anomaly, the curvature scalar is nonzero even in a radiation-dominated Universe. Moreover, the trace anomaly or the energy density of a massive scalar field can amplify the baryon asymmetry at very high temperatures, even when the particle creation rate is very slow. As a result, a baryon asymmetry compatible with observations and a huge CP violation can be generated in the early Universe.