Quantum GravitoElectromagnetic Dynamics

We propose a renormalisable quantum theory of gravity (QGED) based on the standard BRST quantisation used to quantise the Yang--Mills theory. The BRST-invariant Lagrangian of the gravitationally interacting $U(1)$-gauge theory, including gauge fixing and ghost parts, is provided. From this Lagrangian, we extract a set of Feynman rules in the local inertial frame where gravity vanishes locally. Utilising Feynman rules of the QGED prepared here, we construct all renormalisation constants and show that the theory is perturbatively renormalisable in one-loop order. We replace infinite-valued bare objects in the bare Lagrangian with experimentally measured ones. In addition to standard QED parameters, we show that the gravitational coupling constant is measurable experimentally. We also discuss a running effect of the gravitational coupling constant and the perturbative estimation of the Hawking radiation as examples of the perturbative QGED.