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Bibliographic Details
Main Author: Kurihara, Yoshimasa
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2307.13003
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author Kurihara, Yoshimasa
author_facet Kurihara, Yoshimasa
contents This report presents a possible attempt at renormalisable quantum gravity based on the standard BRST quantisation used for Yang-Mills theory. We have provided the BRST invariant Lagrangian of the gravitationally interacting U(1) gauge theory, namely the Quantum GraviElectro Dynamics (QGED), including the gauge fixing and the ghost Lagrangian. We have extracted a set of Feynman rules in the local inertial frame where gravity locally vanishes from this Lagrangian. Using the Feynman rules of the QGED constructed here, we have built all the renormalisation constants and show that the theory is perturbatively renormalisable, at least in the one-loop order. All infinite naked objects in the naked Lagrangian can replace experimentally measured ones. In addition to the standard QED parameters, we have shown that the gravitational coupling constant can be experimentally measured. We have also discussed a running effect of the gravitational coupling constant and the perturbative estimation of the Hawking radiation as examples of perturbative QGED. The difference between our theory and the widely known un-renormalisable quantum general relativity is clarified.
format Preprint
id arxiv_https___arxiv_org_abs_2307_13003
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Quantum GraviElectro Dynamics
Kurihara, Yoshimasa
High Energy Physics - Phenomenology
General Relativity and Quantum Cosmology
High Energy Physics - Theory
This report presents a possible attempt at renormalisable quantum gravity based on the standard BRST quantisation used for Yang-Mills theory. We have provided the BRST invariant Lagrangian of the gravitationally interacting U(1) gauge theory, namely the Quantum GraviElectro Dynamics (QGED), including the gauge fixing and the ghost Lagrangian. We have extracted a set of Feynman rules in the local inertial frame where gravity locally vanishes from this Lagrangian. Using the Feynman rules of the QGED constructed here, we have built all the renormalisation constants and show that the theory is perturbatively renormalisable, at least in the one-loop order. All infinite naked objects in the naked Lagrangian can replace experimentally measured ones. In addition to the standard QED parameters, we have shown that the gravitational coupling constant can be experimentally measured. We have also discussed a running effect of the gravitational coupling constant and the perturbative estimation of the Hawking radiation as examples of perturbative QGED. The difference between our theory and the widely known un-renormalisable quantum general relativity is clarified.
title Quantum GraviElectro Dynamics
topic High Energy Physics - Phenomenology
General Relativity and Quantum Cosmology
High Energy Physics - Theory
url https://arxiv.org/abs/2307.13003