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Article Open Access September 26, 2023

Charged Stellar Model with Generalized Chaplygin Equation of State Consistent with Observational Data

Manuel Malaver 1,* and Rajan Iyer 2
1
Maritime University of the Caribbean, Department of Basic Sciences, Catia la Mar, Venezuela.
2
Environmental Materials Theoretical Physicist, Department of Physical Mathematics Sciences Engineering Project Technologies, Engineeringinc International Operational Teknet Earth Global, Tempe, Arizona, United States of America
Publihed in: Current Research in Public Health (Volume 2, Issue 1, 2023)
Page(s): 43-59
DOI: 10.31586/ujpr.2023.748
Received
August 07, 2023
Revised
September 10, 2023
Accepted
September 25, 2023
Published
September 26, 2023
Keywords
Einstein-Maxwell field equations; Chaplygin equation of state; Electric field intensity; Metric potential; Radial pressure; Anisotropy
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.
Copyright: Copyright © The Author(s), 2023. Published by Scientific Publications
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Cite This Article

APA Style
Malaver, M. , & Iyer, R. (2023). Charged Stellar Model with Generalized Chaplygin Equation of State Consistent with Observational Data. Current Research in Public Health, 2(1), 43-59. https://doi.org/10.31586/ujpr.2023.748
ACS Style
Malaver, M. ; Iyer, R. Charged Stellar Model with Generalized Chaplygin Equation of State Consistent with Observational Data. Current Research in Public Health 2023 2(1), 43-59. https://doi.org/10.31586/ujpr.2023.748
Chicago/Turabian Style
Malaver, Manuel, and Rajan Iyer. 2023. "Charged Stellar Model with Generalized Chaplygin Equation of State Consistent with Observational Data". Current Research in Public Health 2, no. 1: 43-59. https://doi.org/10.31586/ujpr.2023.748
AMA Style
Malaver M, Iyer R. Charged Stellar Model with Generalized Chaplygin Equation of State Consistent with Observational Data. Current Research in Public Health. 2023; 2(1):43-59. https://doi.org/10.31586/ujpr.2023.748 
@Article{crph748,
AUTHOR = {Malaver, Manuel and Iyer, Rajan},
TITLE = {Charged Stellar Model with Generalized Chaplygin Equation of State Consistent with Observational Data},
JOURNAL = {Current Research in Public Health},
VOLUME = {2},
YEAR = {2023},
NUMBER = {1},
PAGES = {43-59},
URL = {https://www.scipublications.com/journal/index.php/UJPR/article/view/748},
ISSN = {2831-5162},
DOI = {10.31586/ujpr.2023.748},
ABSTRACT = {In this paper, we found a new model for a compact star with charged anisotropic matter distribution considering the generalized Chaplygin equation of state. The Einstein-Maxwell field equations have been solved with a particular form of metric potential and electric field intensity. The plots show that physical variables such as radial pressure, energy density, charge density, anisotropy, radial speed sound, and the mass are fully well defined and are regular in the star's interior. We obtained models consistent with stellar objects such as GJ 832, LHS 43, SAO 81292, GJ 380, GJ 412, and SAO 62377.},
}
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%A Iyer, Rajan
%D 2023
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%M doi:10.31586/ujpr.2023.748
%U https://www.scipublications.com/journal/index.php/UJPR/article/view/748

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AB  - In this paper, we found a new model for a compact star with charged anisotropic matter distribution considering the generalized Chaplygin equation of state. The Einstein-Maxwell field equations have been solved with a particular form of metric potential and electric field intensity. The plots show that physical variables such as radial pressure, energy density, charge density, anisotropy, radial speed sound, and the mass are fully well defined and are regular in the star's interior. We obtained models consistent with stellar objects such as GJ 832, LHS 43, SAO 81292, GJ 380, GJ 412, and SAO 62377.
DO  - Charged Stellar Model with Generalized Chaplygin Equation of State Consistent with Observational Data
TI  - 10.31586/ujpr.2023.748
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