Rotation effect for chiral magnetic cosmic string in the Kaluza-Klein   theory

Ricardo L. L. Vit\'oria; Carlos F. S. Pereira; \'Erico V. B. Leite,; Adriano R. Soares; Humberto Belich

arXiv:2408.09549·hep-th·August 20, 2024

Rotation effect for chiral magnetic cosmic string in the Kaluza-Klein theory

Ricardo L. L. Vit\'oria, Carlos F. S. Pereira, \'Erico V. B. Leite,, Adriano R. Soares, Humberto Belich

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TL;DR

This paper explores how rotational effects influence scalar particles around chiral cosmic strings within Kaluza-Klein theory, revealing parameter-dependent bounds on the radial coordinate that affect boundary conditions.

Contribution

It provides new insights into bound state solutions in a rotating chiral cosmic string spacetime within the Kaluza-Klein framework.

Findings

01

Parameter combinations impose bounds on the radial coordinate.

02

Boundary conditions are influenced by spacetime parameters.

03

Rotational effects alter scalar particle bound states.

Abstract

We have investigated bound state solutions for a scalar particle described in the spacetime of a chiral cosmic string subjected to rotational effects in a Kaluza-Klein theory. We saw that combinations between the parameters that describe the generalized spacetime impose upper and lower limits for the radial coordinate leading to well-established boundary conditions.

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Taxonomy

TopicsCosmology and Gravitation Theories · Geophysics and Gravity Measurements · Black Holes and Theoretical Physics