In the presence of a minimal length, physical objects cannot collapse to an infinite density, singular, matter point. In this paper, we consider the possible final stage of the gravitational collapse of “thick” matter layers. The energy momentum tensor we choose to model these shell-like objects is a proper modification of the source for “noncommutative geometry inspired,” regular black holes. By using higher momenta of Gaussian distribution to localize matter at finite distance from the origin, we obtain new solutions of the Einstein equation which smoothly interpolates between Minkowski’s geometry near the center of the shell and Schwarzschild’s spacetime far away from the matter layer. The metric is curvature singularity free. Black hole type solutions exist only for “heavy” shells; that is, M> M_e , where M_e is the mass of the extremal configuration. We determine the Hawking temperature and a modified area law taking into account the extended nature of the source.

The Final Stage of Gravitationally Collapsed Thick Matter Layers

SPALLUCCI, EURO;NICOLINI, PIERO
2013-01-01

Abstract

In the presence of a minimal length, physical objects cannot collapse to an infinite density, singular, matter point. In this paper, we consider the possible final stage of the gravitational collapse of “thick” matter layers. The energy momentum tensor we choose to model these shell-like objects is a proper modification of the source for “noncommutative geometry inspired,” regular black holes. By using higher momenta of Gaussian distribution to localize matter at finite distance from the origin, we obtain new solutions of the Einstein equation which smoothly interpolates between Minkowski’s geometry near the center of the shell and Schwarzschild’s spacetime far away from the matter layer. The metric is curvature singularity free. Black hole type solutions exist only for “heavy” shells; that is, M> M_e , where M_e is the mass of the extremal configuration. We determine the Hawking temperature and a modified area law taking into account the extended nature of the source.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11368/2737694
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