Emergent modified gravity coupled to scalar matter

TL;DR

This paper extends emergent modified gravity theories to include scalar matter in spherical symmetry, revealing how matter influences the emergent space-time metric and exploring conditions for singularity resolution.

Contribution

It introduces a framework for scalar matter coupling in emergent modified gravity, maintaining covariance and analyzing effects on black hole singularities.

Findings

Matter affects the emergent metric beyond stress-energy coupling.

Classical black-hole singularities can be removed with specific modifications.

Emergent modified gravity yields new scalar-tensor theories with second-order equations.

Abstract

Emergent modified gravity presents a new set of generally covariant gravitational theories in which the space-time metric is not directly given by one of the fundamental fields. A metric compatible with the modified dynamics of gravity is instead derived from covariance conditions for space-time in canonical form. This paper presents a significant extension of existing vacuum models to the case of a scalar field coupled to emergent modified gravity in a spherically symmetric setting. Unlike in previous attempts for instance in models of loop quantum gravity, it is possible to maintain general covariance in the presence of modified gravity-scalar couplings. In general, however, the emergent space-time metric depends not only on the phase-space degrees of freedom of the gravitational part of the coupled theory, but also on the scalar field. Matter therefore directly and profoundly affects the geometry of space-time, not only through the well-known dynamical coupling of stress-energy to curvature as in Einstein's equation, but even on a kinematical level before equations of motion are solved. This paper introduces further physical requirements that may be imposed for a reduction of modified theories to more specific classes, in some cases eliminating certain modifications that would be possible in a vacuum situation. With minimal coupling, results about the removal of classical black-hole singularities in vacuum emergent modified gravity are found to be unstable under the inclusion of matter, but alternative modifications exist in which singularities are removed even in the presence of matter. Emergent modified gravity is seen to provide a large class of new scalar-tensor theories with second-order field equations.