Stability of semiclassical gravity solutions with respect to quantum metric fluctuations

TL;DR

This paper examines the stability of semiclassical gravity solutions by analyzing quantum metric fluctuations, emphasizing the importance of induced fluctuations and stochastic gravity frameworks for a complete stability criterion.

Contribution

It introduces a comprehensive stability analysis using stochastic semiclassical gravity, highlighting the role of induced fluctuations and the Einstein-Langevin equation.

Findings

Minkowski spacetime is stable under quantum fluctuations.

Traditional stability criteria are incomplete without considering induced fluctuations.

Stochastic gravity provides a more complete stability assessment.

Abstract

We discuss the stability of semiclassical gravity solutions with respect to small quantum corrections by considering the quantum fluctuations of the metric perturbations around the semiclassical solution. We call the attention to the role played by the symmetrized two-point quantum correlation function for the metric perturbations, which can be naturally decomposed into two separate contributions: intrinsic and induced fluctuations. We show that traditional criteria on the stability of semiclassical gravity are incomplete because these criteria based on the linearized semiclassical Einstein equation can only provide information on the expectation value and the intrinsic fluctuations of the metric perturbations. By contrast, the framework of stochastic semiclassical gravity provides a more complete and accurate criterion because it contains information on the induced fluctuations as well. The Einstein-Langevin equation therein contains a stochastic source characterized by the noise kernel (the symmetrized two-point quantum correlation function of the stress tensor operator) and yields stochastic correlation functions for the metric perturbations which agree, to leading order in the large N limit, with the quantum correlation functions of the theory of gravity interacting with N matter fields. These points are illustrated with the example of Minkowski spacetime as a solution to the semiclassical Einstein equation, which is found to be stable under both intrinsic and induced fluctuations.