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Abstract
We use gravitational decoupling to establish a connection between the minimal geometric deformation approach and the standard method for obtaining anisotropic fluid solutions. Motivated by the relations that appear in the framework of minimal geometric deformation, we give an anisotropy factor that allows us to solve the quasi–Einstein equations associated to the decoupling sector. We illustrate this by building an anisotropic extension of the well known Tolman IV solution, providing in this way an exact and physically acceptable solution that represents the behavior of compact objects. We show that, in this way, it is not necessary to use the usual mimic constraint conditions. Our solution is free from physical and geometrical singularities, as expected. We have presented the main physical characteristics of our solution both analytically and graphically and verified the viability of the solution obtained by studying the usual criteria of physical acceptability.
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Details
1 Universidad Central de Venezuela, Grupo de Campos y Partículas, Facultad de Ciencias, Caracas, Venezuela (GRID:grid.8171.f) (ISNI:0000 0001 2155 0982)
2 Yachay Tech University, School of Physical Sciences and Nanotechnology, Urcuquí, Ecuador (GRID:grid.8171.f)
3 Universidad San Francisco de Quito, Departamento de Física, Colegio de Ciencias e Ingeniería, Quito, Ecuador (GRID:grid.412251.1) (ISNI:0000 0000 9008 4711)