A single model of traversable wormholes supported by generalized phantom energy or Chaplygin gas

TL;DR

This paper introduces a new variable equation of state that enables exact solutions for traversable wormholes, combining generalized phantom energy and Chaplygin gas models, advancing theoretical understanding of exotic spacetime structures.

Contribution

It presents a novel variable equation of state that unifies phantom energy and Chaplygin gas models for wormhole solutions in Einstein's equations.

Findings

Derived exact wormhole solutions using the new equation of state

Unified generalized phantom energy and Chaplygin gas models

Enhanced theoretical framework for traversable wormholes

Abstract

This paper discusses a new variable equation of state parameter leading to exact solutions of the Einstein field equations describing traversable wormholes. In addition to generalizing the notion of phantom energy, the equation of state generates a mathematical model that combines the generalized phantom energy and the generalized Chaplygin gas models.