Spooky black holes: Gravitational self-energy and space curvature

It is shown that space curvature can be disposed of by properly taking into account gravitational self-energies. This leads to a parameter-free modification of Newton’s law, violating Gauss theorem, which accounts for the crucial tests of gravitation in a flat space. Strong gravitational fields enta...

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Veröffentlicht in:	European physical journal plus 2011-05, Vol.126 (5), p.48, Article 48
1. Verfasser:	Christillin, P.
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied and Technical Physics Atomic Complex Systems Condensed Matter Physics Curvature Gravitational fields Mathematical and Computational Physics Molecular Optical and Plasma Physics Parameter modification Physics Physics and Astronomy Regular Article Theoretical
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description	It is shown that space curvature can be disposed of by properly taking into account gravitational self-energies. This leads to a parameter-free modification of Newton’s law, violating Gauss theorem, which accounts for the crucial tests of gravitation in a flat space. Strong gravitational fields entail opposing big gravitational self-energies. The negative gravitational self-energy of a gravitational composite object, which results in a mass defect with respect to the sum of the constituents, thus cancels out the latter at the Schwarzschild radius. Hence a black hole, possible end result of the radiative shrinkage of a star, having zero total energy, cannot any longer interact with other objects. Baryon number non-conservation may result.
doi_str_mv	10.1140/epjp/i2011-11048-2
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subjects	Applied and Technical Physics Atomic Complex Systems Condensed Matter Physics Curvature Gravitational fields Mathematical and Computational Physics Molecular Optical and Plasma Physics Parameter modification Physics Physics and Astronomy Regular Article Theoretical
title	Spooky black holes: Gravitational self-energy and space curvature
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