TL;DR
This paper explores a novel quantum cosmology approach to black hole formation, where black holes are created from nothing via gravitational instantons, with probabilities linked to universe entropy.
Contribution
It introduces a new quantum cosmology scenario for black hole creation from nothing, distinct from astrophysical or early universe formation mechanisms.
Findings
Black holes originate from gravitational instantons in quantum cosmology.
Creation probability is exponential of the universe's total entropy.
De Sitter spacetime is the most probable at the Planck era.
Abstract
Creation of a black hole in quantum cosmology is the third way of black hole formation. In contrast to the gravitational collapse from a massive body in astrophysics or from the quantum fluctuation of matter fields in the very early universe, in quantum cosmology scenario the black hole is essentially created from nothing. The black hole originates from a constrained gravitational instanton. The probability of creation for all kinds of single black holes in the Kerr- Newman-de Sitter family, at the semi-classical level, is the exponential of the total entropy of the universe, or one quarter of the sum of both the black hole and the cosmological horizon areas. The de Sitter spacetime is the most probable evolution at the Planckian era.
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Taxonomy
TopicsCosmology and Gravitation Theories · Relativity and Gravitational Theory · Black Holes and Theoretical Physics