Lorentz-violating gravity and the bootstrap procedure
Abstract
In conventional gravitational physics, the so-called "bootstrap procedure" can be used to extrapolate from a linear model of a rank-2 tensor to a full non-linear theory of gravity (i.e., general relativity) via a coupling to the stress-energy of the model. In this work, I extend this procedure to a "Lorentz-violating" gravitational model, in which the linear tensor field and the matter fields "see" different metrics due to a coupling between the tensor field and a background vector field. The resulting model can be thought of as a generalized Proca theory with a non-minimal coupling to conventional matter. It has a similar linearized limit to the better-known "bumblebee model", but differs at higher orders in perturbation theory. Its effects are unobservable in FRW spacetimes, but are expected to be important in anisotropic cosmological spacetimes.
Keywords
Cite
@article{arxiv.1907.12595,
title = {Lorentz-violating gravity and the bootstrap procedure},
author = {Michael D Seifert},
journal= {arXiv preprint arXiv:1907.12595},
year = {2020}
}
Comments
24 pages