Two-layered compact star in biquadratic spatial metric with distinct core-shell equations of state

Two-layered compact star in biquadratic spatial metric with distinct core-shell equations of state

We develop a smoothly matched and singularity-free model for a two-layered compact star, comprising an MIT bag model type dense core surrounded by a shell of Bose-Einstein condensate. Using a biquadratic spatial metric as the coherent background, the temporal metric potential for each layer is obtai...

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Bibliographic Details
Main Authors: Shweta Saklany, Neeraj Pant, Brajesh Pandey
Format: Article
Language:English
Published: Elsevier 2025-07-01
Series:Physics Letters B
Subjects:
Compact star
Core-shell
Deconfined quark matter
Bose-Einstein condensate
Einstein field equation
Two-layered
Online Access:http://www.sciencedirect.com/science/article/pii/S0370269325003338
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Summary:We develop a smoothly matched and singularity-free model for a two-layered compact star, comprising an MIT bag model type dense core surrounded by a shell of Bose-Einstein condensate. Using a biquadratic spatial metric as the coherent background, the temporal metric potential for each layer is obtained by solving the Einstein field equations. This approach provides a comprehensive understanding of the pressure-density distribution and thermodynamic behavior within the star, offering critical insights into its stability, mass-radius relationship, and overall physical feasibility. A key finding of this study is the existence of a stable core-shell structure, where the two distinct regions are smoothly connected at the junction Image 1. Another distinctive feature is the formation of a uniform flow zone close to core-shell junction, where the tangential sound speed remains nearly constant vts,c(r)≈0.374.
ISSN:0370-2693

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