English

Gravitational baryogenesis beyond the spectator approximation

General Relativity and Quantum Cosmology 2026-05-01 v2 High Energy Physics - Theory

Abstract

The standard gravitational-baryogenesis operator λμRJμ\lambda\,\nabla_\mu R\,J^\mu, with λϵ/M2\lambda\equiv \epsilon/M_\ast^{2}, is usually treated as a spectator interaction that generates an effective chemical potential in a prescribed background. When included in the gravitational action, however, it defines a genuine curvature--matter-coupling variational problem, relevant for the baryon, lepton, and B ⁣ ⁣LB\!-\!L currents, whether described microscopically by particle-physics operators or macroscopically by a fluid current Jμ=nXuμJ^\mu=n_Xu^\mu. Up to a boundary term the interaction is equivalent to λRμJμ-\lambda R\nabla_\mu J^\mu, making its f(R,Matter)f(R,{\rm Matter}) character manifest, but the metric equations remain open unless the metric dependence of JμJ^\mu is specified. For an arbitrary local realization Jμ(Ψ,g)J^\mu(\Psi,g) we derive the universal part of the field equations and isolate the realization-dependent tensor generated by δgJμ\delta_g J^\mu. In the vector-density realization the explicit JααRJ^\alpha\nabla_\alpha R term cancels, but an algebraic term λgμνRαJα-\lambda g_{\mu\nu}R\nabla_\alpha J^\alpha survives, so the theory admits only a partial effective-Planck-mass interpretation, Meff2=MPl22λμJμM_{\rm eff}^2=M_{\rm Pl}^2-2\lambda\nabla_\mu J^\mu, and a time-dependent effective gravitational coupling during baryogenesis. Specializing to flat Friedmann-Lema\^itre-Robertson-Walker (FLRW) with a homogeneous current Jμ=nXuμJ^\mu=n_Xu^\mu, we obtain the modified Friedmann and Raychaudhuri equations, the associated continuity relation, and dimensionless diagnostics that quantify when the spectator approximation is controlled. We also discuss the implications for gravitational-baryogenesis studies in modified theories of gravity, providing a consistent General Relativity (GR) baseline for implementations in both standard cosmology and modified-gravity frameworks.

Cite

@article{arxiv.2603.11837,
  title  = {Gravitational baryogenesis beyond the spectator approximation},
  author = {David S. Pereira and Beatriz A. Fernandes and José Pedro Mimoso},
  journal= {arXiv preprint arXiv:2603.11837},
  year   = {2026}
}

Comments

V2: 12 pages. Matches published version

R2 v1 2026-07-01T11:16:33.270Z