Radiating, slowly rotating bodies in general relativity
Fecha
2006-01-26Palabras Clave
Distribuciones autogravitantes, Astrofísica, Astrofísica teórica, Relatividad generalEinstein equations, Gravitational collapse, Relativity, Rotating bodies, Stellar gravitation, Schwarzschild metric, Stellar models, Physics, General relativity
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Radiating, slowly rotating bodies in general relativity
(Melfo, Alejandra; Núñez, Luis; Patiño, Alberto; Herrera, Luis)
Abstract
We propose a method to obtain axisymmetric, dynamic solutions to the Einstein equations that can represent a radiating collapsing body in slow differential rotation. The method is a generalization of the semi-numeric approach developed but Herrera, Jimenez, & Ruggeri, in 1980, for the spherically symmetric case. Solutions are properly matched to the exterior Kerr-Vaidya metric, and the values of the physically relevant variables (density, pressure, fluid velocity, and energy flux) are obtained inside the matter distribution. As an example of the method, a model based on Schwarzschild interior homogeneous static solution is presented.
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Información Adicional
Correo Electrónico | melfo@ula.ve nunez@ula.ve patino@ula.ve lherrera@dino.conicit.ve |
Editor | SABER ULA |
Idioma | Inglés |