Graviton Self-Energy from Gravitons in Cosmology (2103.08547v2)

Abstract: Although matter contributions to the graviton self-energy $-i\mbox{}^{\mu\nu} \Sigma^{\rho\sigma}$ must be separately conserved on $x^{\mu}$ and ${x'}^{\mu}$, graviton contributions obey the weaker constraint of the Ward identity, which involves a divergence on both coordinates. On a general homogeneous and isotropic background this leads to just four structure functions for matter contributions but nine structure functions for graviton contributions. We propose a convenient parameterization for these nine structure functions. We also apply the formalism to explicit one loop computations of $-i\mbox{}^{\mu\nu} \Sigma^{\rho\sigma}$ on de Sitter background, one of the contributions from a massless, minimally coupled scalar and the other for the contribution from gravitons in the simplest gauge. We also specialize the linearized, quantum-corrected Einstein equation to the graviton mode function and to the gravitational response to a point mass.