Traversable wormholes with like--Casimir complexity supported with   arbitrarily small amount of exotic matter

R. \'Avalos; E. Fuenmayor; E. Contreras

arXiv:2208.10261·gr-qc·August 31, 2022

Traversable wormholes with like--Casimir complexity supported with arbitrarily small amount of exotic matter

R. \'Avalos, E. Fuenmayor, E. Contreras

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TL;DR

This paper constructs traversable wormholes supported by minimal exotic matter using the complexity factor and Casimir energy, analyzing their geometry, tidal effects, and traversal time.

Contribution

It introduces a novel approach combining the complexity factor with Casimir energy to minimize exotic matter in traversable wormholes.

Findings

01

Wormholes with minimal exotic matter are feasible using the complexity factor.

02

The shape and embedding diagrams illustrate the wormhole geometry.

03

Estimated tidal accelerations and traversal times are within acceptable ranges.

Abstract

In this work we construct traversable wormholes geometries in the framework of the complexity factor. We provide the redshift function of a Casimir traversable wormhole which, in combination with a non--vanishing complexity factor, leads to a traversable wormhole with a minimum amount of exotic matter. The shape function and the embedding diagram are shown and discussed. The tidal accelerations and the time required to get through the wormholes are estimated.

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Taxonomy

TopicsQuantum Electrodynamics and Casimir Effect · Advanced Mathematical Theories and Applications · Cosmology and Gravitation Theories