High-speed cylindrical collapse of two perfect fluids

Sharif, M.; Ahmad, Zahid

doi:10.1007/s10714-007-0440-4

Cited by 24 publications

(17 citation statements)

References 31 publications

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“…Some recent work [20]- [23] indicate great interest in cylindrical gravitational collapse with different fluids with and without electromagnetic field. In this paper, we use cylindrically symmetric distribution of collapsing isotropic fluid to discuss the dynamical instability with electromagnetic field.…”

Section: Introductionmentioning

confidence: 99%

Effects of electromagnetic field on the dynamical instability of cylindrical collapse

Sharif¹,

Azam²

2012

J. Cosmol. Astropart. Phys.

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The objective of this paper is to discuss the dynamical instability in the context of Newtonian and post Newtonian regimes. For this purpose, we consider non-viscous heat conducting charged isotropic fluid as a collapsing matter with cylindrical symmetry. Darmois junction conditions are formulated. The perturbation scheme is applied to investigate the influence of dissipation and electromagnetic field on the dynamical instability. We conclude that the adiabatic index Γ has smaller value for such a fluid in cylindrically symmetric than isotropic sphere.

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Section: Introductionmentioning

confidence: 99%

Effects of electromagnetic field on the dynamical instability of cylindrical collapse

Sharif¹,

Azam²

2012

J. Cosmol. Astropart. Phys.

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“…Thus the inconsistency of Eqs. (18) and (19) imply that our supposition is wrong, i.e.,ṙ is either zero or infinite. Hence singularity is strong in Tipler [32] sense providing a counter example to weak form of CCH.…”

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confidence: 76%

Singularity in Gravitational Collapse of Plane Symmetric Charged Vaidya Spacetime

Sharif

Siddiqa

2010

Mod. Phys. Lett. A

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We study the final outcome of gravitational collapse resulting from the plane symmetric charged Vaidya spacetime. Using the field equations, we show that the weak energy condition is always satisfied by collapsing fluid. It is found that the singularity formed is naked. The strength of singularity is also investigated by using Nolan's method. This turns out to be a strong curvature singularity in Tipler's sense and hence provides a counter example to the cosmic censorship hypothesis.

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“…The same authors generalized this work for the perfect fluid case [25]. In a recent paper [26], two of the present authors MS and ZA have extended this work by considering two perfect fluids. These investigations have provided interesting results about the gravitational collapse.…”

Section: Introductionmentioning

confidence: 88%

High-speed collapse of a hollow sphere of type I matter

Ahmad

Harada

Nakao

et al. 2009

Class. Quantum Grav.

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In this paper, we study the dynamics of a hollow spherical matter collapsing with very large initial velocity. The spacetime is initially very similar to the Vaidya solution, and the deviations from this background are treated perturbatively. The equations of state for radial pressure p R = kρ and tangential one p T = wρ with constant k and w are assumed. We find for the case of equations of state k < 1 and 0 < w ≤ 1 that the initial velocity, which is nearly the speed of light, is strongly decelerated. This result implies that the pressure is essential to the property of singularity formation in gravitational collapse even for initially nearly light-speed collapse. By contrast, in cases with the negative tangential pressure, the present result implies that the central naked singularity similar to that of the Vaidya spacetime can be formed, even though the radial pressure is positive, and the weak, strong and dominant energy conditions hold. Especially, in the case of w < −(1 − k)/4, the high-speed collapse will produce the spacetime structure very similar to that of the Vaidya spacetime.

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High-speed cylindrical collapse of two perfect fluids

Cited by 24 publications

References 31 publications

Effects of electromagnetic field on the dynamical instability of cylindrical collapse

Effects of electromagnetic field on the dynamical instability of cylindrical collapse

Singularity in Gravitational Collapse of Plane Symmetric Charged Vaidya Spacetime

High-speed collapse of a hollow sphere of type I matter

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