Quantum motions of scalar particles under rainbow gravity effects in spherical symmetrical G\"odel-type metric with topological defects
Abstract
In this research contribution, we explore the relativistic quantum dynamics of spin-0 scalar particles within a curved space-time background containing topological defects, while incorporating the effects of rainbow gravity. The Klein Gordon equation is solved in a spherically symmetrical Godel type space time, considering the presence of topological defects and the influence of rainbow gravity, described by the line element:
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