Paranjape, Aseem ; Padmanabhan, T. (2009) Radiation from collapsing shells, semiclassical backreaction, and black hole formation Physical Review D - Particles, Fields, Gravitation and Cosmology, 80 (4). 044011_1-044011_22. ISSN 1550-7998
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Official URL: http://prd.aps.org/abstract/PRD/v80/i4/e044011
Related URL: http://dx.doi.org/10.1103/PhysRevD.80.044011
Abstract
We provide a detailed analysis of quantum field theory around a collapsing shell and discuss several conceptual issues related to the emission of radiation flux and formation of black holes. Explicit calculations are performed using a model for a collapsing shell, which turns out to be analytically solvable. We use the insights gained in this model to draw reliable conclusions regarding more realistic models. We first show that any shell of mass M, which collapses to a radius close to r=2M, will emit approximately thermal radiation for a period of time. In particular, a shell that collapses from some initial radius to a final radius 2M(1-ε2)-1 (where ε≪1) without forming a black hole, will emit thermal radiation during the period M≲t≲Mln (1/e2). Later on (t≫,Mln (1/ε2)), the flux from such a shell will decay to zero exponentially. We next study the effect of backreaction computed using the vacuum expectation value of the stress tensor on the collapse. We find that, in any realistic collapse scenario, the backreaction effects do not prevent the formation of the event horizon. The time at which the event horizon is formed is, of course, delayed due to the radiated flux-which decreases the mass of the shell-but this effect is not sufficient to prevent horizon formation. We also clarify several conceptual issues and provide pedagogical details of the calculations in the Appendices to the paper.
Item Type: | Article |
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Source: | Copyright of this article belongs to The American Physical Society. |
ID Code: | 72634 |
Deposited On: | 29 Nov 2011 05:50 |
Last Modified: | 29 Nov 2011 05:50 |
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