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arxiv: gr-qc/0412063 · v2 · submitted 2004-12-13 · 🌀 gr-qc · astro-ph

Computations of primordial black hole formation

Ilia Musco (1) , John C. Miller (1 , 2) , Luciano Rezzolla (1 , 3); ((1) SISSA , International School for Advanced Studies , INFN , Italy; (2) Department of Physics (Astrophysics)
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University of Oxford England; (3) Department of Physics Louisiana State University USA)
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classification 🌀 gr-qc astro-ph
keywords perturbationsformationthresholdblackblack-holecomputationsfollowedinitial
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Results are presented from general relativistic numerical computations of primordial black-hole formation during the radiation-dominated era of the universe. Growing-mode perturbations are specified within the linear regime and their subsequent evolution is followed as they become nonlinear. We use a spherically symmetric Lagrangian code and study both super-critical perturbations, which go on to produce black holes, and sub-critical perturbations, for which the overdensity eventually disperses into the background medium. For super-critical perturbations, we confirm the results of previous work concerning scaling-laws but note that the threshold amplitude for a perturbation to lead to black-hole formation is substantially reduced when the initial conditions are taken to represent purely growing modes. For sub-critical cases, where an initial collapse is followed by a subsequent re-expansion, strong compressions and rarefactions are seen for perturbation amplitudes near to the threshold. We have also investigated the effect of including a significant component of vacuum energy and have calculated the resulting changes in the threshold and in the slope of the scaling law.

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