FLRW cosmology in Weyl-Integrable Space-Time
Radouane Gannouji, Hemwati Nandan, Naresh Dadhich
TL;DR
This paper explores Weyl-Integrable Space-Time as an extension of general relativity to analyze FLRW cosmology, deriving evolution equations and examining conditions for a cyclic universe without singularities.
Contribution
It introduces a Weyl space-time framework with Starobinsky modification for cosmology, deriving new evolution equations and analyzing caustic formation.
Findings
Possible Big Bang singularity free cyclic universe
Periodic solutions with extremely short cycles
Modified Raychaudhuri equation as Hill-type equation
Abstract
We investigate the Weyl space-time extension of general relativity (GR) for studying the FLRW cosmology through focusing and defocusing of the geodesic congruences. We have derived the equations of evolution for expansion, shear and rotation in the Weyl space-time. In particular we consider the Starobinsky modification, , of gravity in the Einstein-Palatini formalism, which turns out to reduce to the Weyl integrable space-time (WIST) with the Weyl vector being a gradient. The modified Raychaudhuri equation takes the form of the Hill-type equation which is then analysed for studying formation of the caustics. In this model, it is possible to have a Big Bang singularity free cyclic Universe but unfortunately the periodicity turns out to be extremely short.
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