Litcius/Paper detail

Can f(R) gravity isotropise a pre-bounce contracting universe?

Simran Arora, Sanjay Mandal, Saikat Chakraborty, Genly León, P. K. Sahoo

2022Journal of Cosmology and Astroparticle Physics16 citationsDOIOpen Access PDF

Abstract

Abstract We address the important issue of isotropisation of a pre-bounce contracting phase in f ( R ) gravity, which would be relevant to constructing any viable nonsingular bouncing scenario in f ( R ) gravity. The main motivation behind this work is to investigate whether the f ( R ) gravity, by itself, can isotropise a contracting universe starting initially with small anisotropy without incorporating a super-stiff or non-ideal fluid, impossible in general relativity. Considering Bianchi I cosmology and employing a dynamical system analysis, we see that this is not possible for R n ( n > 1) and R + αR 2 ( α > 0) theory, but possible for 1/ α e αR ( α > 0) theory. On the other hand, if one does not specify an f(R) theory a priori but demands a cosmology smoothly connecting an ekpyrotic contraction phase to a nonsingular bounce, the ekpyrotic phase may not fulfil the condition for isotropisation and physically viability simultaneously.

Topics & Concepts

PhysicsEkpyrotic universeCosmologyGeneral relativityPerfect fluidUniverseTheoretical physicsGravitationf(R) gravityAlpha (finance)Mathematical physicsClassical mechanicsMetric expansion of spaceQuantum mechanicsQuantum gravityInternal consistencyDark energyClinical psychologyPsychometricsMedicineQuantumCosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsGalaxies: Formation, Evolution, Phenomena
Can f(R) gravity isotropise a pre-bounce contracting universe? | Litcius