Tidal Love numbers of anisotropic stars within the complexity factor   formalism

\'Angel Rinc\'on; Grigoris Panotopoulos; Il\'idio Lopes

arXiv:2411.05171·gr-qc·November 11, 2024

Tidal Love numbers of anisotropic stars within the complexity factor formalism

\'Angel Rinc\'on, Grigoris Panotopoulos, Il\'idio Lopes

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TL;DR

This paper calculates the tidal Love numbers of anisotropic stars using the complexity factor formalism and compares the results with traditional methods, providing insights into the effects of anisotropy on stellar tidal responses.

Contribution

It introduces a novel approach to compute tidal Love numbers for anisotropic stars within the complexity factor framework using the Extended Chaplygin gas EOS.

Findings

01

Tidal Love numbers are computed for anisotropic stars.

02

Comparison shows differences with conventional approaches.

03

Results highlight the impact of anisotropy on tidal deformability.

Abstract

We compute the quadrupolar gravitoelectric tidal Love numbers of spherical configurations made of anisotropic matter. Anisotropies are introduced within the vanishing complexity factor, while interior solutions are obtained adopting the Extended Chaplygin gas equation-of-state. A comparison with a more conventional approach is made as well.

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Taxonomy

TopicsMaterial Science and Thermodynamics