Vaidya Spacetime for Galileon Gravity's Rainbow
Prabir Rudra, Mir Faizal, Ahmed Farag Ali
TL;DR
This paper explores gravitational collapse and singularity behavior in Vaidya spacetime within Galileon gravity's rainbow, incorporating energy-dependent metrics inspired by quantum gravity and non-commutative geometry.
Contribution
It introduces a novel analysis of Vaidya spacetime in Galileon gravity's rainbow with energy-dependent metrics, examining collapse dynamics and singularity formation.
Findings
Singularities' nature is affected by rainbow functions.
Energy dependence influences gravitational collapse outcomes.
New insights into quantum gravity effects on spacetime singularities.
Abstract
In this paper, we analyze Vaidya spacetime with an energy dependent metric in Galileon gravity's rainbow. This will be done using the rainbow functions which are motivated from the results obtained in loop quantum gravity approach and non-commutative geometry. We will investigate the Gravitational collapse in this Galileon gravity's rainbow. We will discuss the behavior of singularities formed from the gravitational collapse in this rainbow deformed Galileon gravity.
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