Relativistic Modeling of Charged Anisotropic Stars in a Buchdahl Spacetime

Authors

  • Manuel Malaver Department of Basic Sciences, Maritime University of the Caribbean, Venezuela Author
  • Rajan Iyer Department of Physical Mathematics Sciences Engineering, Engineering International Operational Teknet Earth Global, United States of America Author

DOI:

https://doi.org/10.47363/

Keywords:

Relativistic Objects, Anisotropic Matter, EinsteinMaxwell System, Metric Potential, Compact Star

Abstract

In this paper, we studied the behavior of relativistic objects with charged anisotropic matter distribution with a linear equation of state considering a metric potential proposed for Buchdahl (1959). The new solutions to the Einstein-Maxwell system of equations are found in term of elementary functions. A physical analysis of electromagnetic field indicates that is regular in the origin and well behaved. The new obtained models satisfy all physical requirements of a physically reasonable stellar object. The models are consistent with the upper limit on the mass of compact stars for PSR J1823-3021G, PSR J1748- 2446an and PSR J1518+4904. 

Author Biography

  • Manuel Malaver, Department of Basic Sciences, Maritime University of the Caribbean, Venezuela

    Manuel Malaver, Department of Basic Sciences, Maritime University of the Caribbean, Venezuela.

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Published

2024-10-07

Issue

Vol. 6 No. 10 (2024): Volume 6 Issue 10

Section

Articles