2016
DOI: 10.1103/physrevd.94.024054
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Shapes of rotating nonsingular black hole shadows

Abstract: It is believed that curvature singularities are a creation of general relativity and hence, in the absence of a quantum gravity, models of nonsingular black holes have received significant attention. We study the shadow (apparent shape), an optical appearance because of its strong gravitational field, cast by a nonsingular black hole which is characterized by three parameters, i.e., mass (M ), spin (a), and a deviation parameter (k). The nonsingular black hole under consideration, is a generalization of the Ke… Show more

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Cited by 156 publications
(98 citation statements)
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“…If we combine Eqs. (25) and (27), we see that the temperature of the envelope of debris goes to zero as µ 1/4 . This makes harder to probe this phenomenon the more compact the CMO is.…”
Section: Infalling Matter Close To the Gravitational Radiusmentioning
confidence: 65%
See 1 more Smart Citation
“…If we combine Eqs. (25) and (27), we see that the temperature of the envelope of debris goes to zero as µ 1/4 . This makes harder to probe this phenomenon the more compact the CMO is.…”
Section: Infalling Matter Close To the Gravitational Radiusmentioning
confidence: 65%
“…These are rather limited if the model breaks down at a late stage of the evaporation process, where significant deviations from classical black hole dynamics are expected to arise. The only possibility is to consider the deviations from the Schwarzschild geometry in the near-horizon region or even outside the black hole, and check how these modifications affect physical processes (e.g., [24][25][26]) that take place in these regions during periods of time which are much smaller than the typical timescale for the dynamical evolution of the regular black hole itself. From Eq.…”
Section: A Regular Black Holesmentioning
confidence: 99%
“…Further, the shadows of super-extremal Kerr black holes [16] and Kerr-Newman-NUT spacetimes [83] as well as Kerr black holes with scalar hair [46,142] have been explored. Regular spacetimes have been studied in [3,9,133,138]. The shadow of non-commutative-geometry inspired black-hole spacetimes has been investigated in [147].…”
Section: Motivationmentioning
confidence: 99%
“…We have interpolated the numerical values of observables from integrals Eqs. (22), (23), and using Eq. (24) to approximate these observables by polynomials in terms of black hole parameters.…”
mentioning
confidence: 99%