Quantum long-range interactions in general relativity

I.B. Khriplovich; G.G. Kirilin

arXiv:gr-qc/0402018·gr-qc·December 18, 2008

Quantum long-range interactions in general relativity

I.B. Khriplovich, G.G. Kirilin

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TL;DR

This paper investigates quantum one-loop effects in general relativity that produce long-range corrections to gravitational interactions, including modifications to the Newton law and spin- and velocity-dependent forces.

Contribution

It identifies quantum corrections to classical metrics and interactions, expanding understanding of quantum effects in gravity beyond classical predictions.

Findings

01

Quantum corrections modify Newton's law at long distances.

02

Spin-dependent and velocity-dependent gravitational interactions are affected.

03

Some effects can be interpreted as quantum modifications to Schwarzschild and Kerr metrics.

Abstract

We consider one-loop effects in general relativity which result in quantum long-range corrections to the Newton law, as well as to the gravitational spin-dependent and velocity-dependent interactions. Some contributions to these effects can be interpreted as quantum corrections to the Schwarzschild and Kerr metric.

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