Emergent metric and geodesic analysis in cosmological solutions of (torsion-free) polynomial affine gravity

Castillo-Felisola O.; Perdiguero J.; Orellana O.; Zerwekh A.R.

Abstract

Starting from an affinely connected space, we consider a model of gravity whose fundamental field is the connection. We build up the action using as sole premise the invariance under diffeomorphisms, and study the consequences of a cosmological ansatz for the affine connection in the torsion-free sector. Although the model is built without requiring a metric, we show that the nondegenerated Ricci curvature of the affine connection can be interpreted as an emergent metric on the manifold. We show that there exists a parametrization in which the -restriction of the geodesics coincides with that of the Friedman-Robertson-Walker model. Additionally, for connections with nondegenerated Ricci we are able to distinguish between space-, time- and null-like self-parallel curves, providing a way to differentiate trajectories of massive and massless particles.

Más información

Título según WOS: Emergent metric and geodesic analysis in cosmological solutions of (torsion-free) polynomial affine gravity
Título según SCOPUS: Emergent metric and geodesic analysis in cosmological solutions of (torsion-free) polynomial affine gravity
Título de la Revista: CLASSICAL AND QUANTUM GRAVITY
Volumen: 37
Número: 7
Editorial: IOP PUBLISHING LTD
Fecha de publicación: 2020
Idioma: English
DOI:

10.1088/1361-6382/ab58ef

Notas: ISI, SCOPUS