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Título: | Anisotropic compact stars in higher-order curvature theory |
Autor: | Nashed, G. G.L.; Odintsov, Sergei D. CSIC ORCID; Oikonomou, Vasilis K. | Fecha de publicación: | 21-may-2021 | Editor: | Springer Nature | Citación: | European Physical Journal C - Particles and Fields 81: 528 (2021) | Resumen: | In this paper we shall consider spherically symmetric spacetime solutions describing the interior of stellar compact objects, in the context of higher-order curvature theory of the f (R) type. We shall derive the non-vacuum field equations of the higher-order curvature theory, without assuming any specific form of the f (R) theory, specifying the analysis for a spherically symmetric spacetime with two unknown functions. We obtain a system of highly non-linear differential equations, which consists of four differential equations with six unknown functions. To solve such a system, we assume a specific form of metric potentials, using the Krori–Barua ansatz. We successfully solve the system of differential equations, and we derive all the components of the energy–momentum tensor. Moreover, we derive the non-trivial general form of f (R) that may generate such solutions and calculate the dynamic Ricci scalar of the anisotropic star. Accordingly, we calculate the asymptotic form of the function f (R) , which is a polynomial function. We match the derived interior solution with the exterior one, which was derived in [1], with the latter also resulting to a non-trivial form of the Ricci scalar. Notably but rather expected, the exterior solution differs from the Schwarzschild one in the context of general relativity. The matching procedure will eventually relate two constants with the mass and radius of the compact stellar object. We list the necessary conditions that any compact anisotropic star must satisfy and explain in detail that our model bypasses all of these conditions for a special compact star Her X- - 1, which has an estimated mass and radius (mass=0.85±0.15M⊚andradius=8.1±0.41km). Moreover, we study the stability of this model by using the Tolman–Oppenheimer–Volkoff equation and adiabatic index, and we show that the considered model is different and more stable compared to the corresponding models in the context of general relativity. | Versión del editor: | http://doi.org/10.1140/epjc/s10052-021-09321-3 | URI: | http://hdl.handle.net/10261/254029 | DOI: | 10.1140/epjc/s10052-021-09321-3 | Identificadores: | doi: 10.1140/epjc/s10052-021-09321-3 issn: 1434-6052 |
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