Your search keyword '"Mukhanov, Viatcheslav"' showing total 5 results

1. Nonsingular Black Hole

Author

Chamseddine , Ali, Mukhanov , Viatcheslav, Institut des Hautes Etudes Scientifiques ( IHES ), and IHES

Subjects

metric: Schwarzschild, gravitation: model, Astrophysics::High Energy Astrophysical Phenomena, gravitation: metric, singularity, horizon, [ PHYS.GRQC ] Physics [physics]/General Relativity and Quantum Cosmology [gr-qc], [ PHYS.HTHE ] Physics [physics]/High Energy Physics - Theory [hep-th], General Relativity and Quantum Cosmology, space-time, curvature, symmetry: rotation, structure, black hole: Schwarzschild, geodesic

Abstract

International audience; We consider the Schwarzschild black hole and show how, in a theory with limiting curvature, the physical singularity “inside it” is removed. The resulting spacetime is geodesically complete. The internal structure of this nonsingular black hole is analogous to Russian nesting dolls. Namely, after falling into the black hole of radius $r_{g}$ , an observer, instead of being destroyed at the singularity, gets for a short time into the region with limiting curvature. After that he re-emerges in the near horizon region of a spacetime described by the Schwarzschild metric of a gravitational radius proportional to $r_{g}^{1/3}$ . In the next cycle, after passing the limiting curvature, the observer finds himself within a black hole of even smaller radius proportional to $r_{g}^{1/9}$ , and so on. Finally after a few cycles he will end up in the spacetime where he remains forever at limiting curvature.

Published

2017

2. Resolving Cosmological Singularities

Author

Chamseddine , Ali, Mukhanov , Viatcheslav, Institut des Hautes Etudes Scientifiques ( IHES ), and IHES

Subjects

space-time: Kasner, cosmological model, bounce, curvature, general relativity, space-time: Robertson-Walker, singularity, dark matter, [ PHYS.GRQC ] Physics [physics]/General Relativity and Quantum Cosmology [gr-qc], [ PHYS.HTHE ] Physics [physics]/High Energy Physics - Theory [hep-th]

Abstract

International audience; We find a simple modification of the longitudinal mode in General Relativity which incorporates the idea of limiting curvature. In this case the singularities in contracting Friedmann and Kasner universes are avoided, and instead, the universe has a regular bounce which takes place during the time inversely proportional to the square root of the limiting curvature. Away from the bounce, corrections to General Relativity are negligible. In addition the non-singluar modification of General Relativity delivers for free a realistic candidate for Dark Matter.

Published

2017

3. Non‐Flat Universes and Black Holes in Asymptotically Free Mimetic Gravity.

Author

Chamseddine, Ali H., Mukhanov, Viatcheslav, and Russ, Tobias B.

Subjects

*GRAVITY, *BLACK holes, *DARK energy, *CURVATURE, UNIVERSE

Abstract

The recently proposed theory of "Asymptotically Free Mimetic Gravity" is extended to the general non‐homogeneous, spatially non‐flat case. We present a modified theory of gravity which is free of higher derivatives of the metric. In this theory asymptotic freedom of gravity implies the existence of a minimal black hole with vanishing Hawking temperature. Introducing a spatial curvature dependent potential, we moreover obtain non‐singular, bouncing modifications of spatially non‐flat Friedmann and Bianchi universes. The recently proposed theory of "Asymptotically Free Mimetic Gravity" is extended to the general non‐homogeneous, spatially non‐at case. The authors present a modified theory of gravity which is free of higher derivatives of the metric. In this theory asymptotic freedom of gravity implies the existence of a minimal black hole with vanishing Hawking temperature. Introducing a spatial curvature dependent potential, non‐singular, bouncing modifications of spatially non‐at Friedmann and Bianchi universes are obtained. [ABSTRACT FROM AUTHOR]

Published

2020

4. Black hole remnants.

Author

Chamseddine, Ali H., Mukhanov, Viatcheslav, and Russ, Tobias B.

Subjects

*BLACK holes, *CURVATURE, *GRAVITY

Abstract

We show that in asymptotically free mimetic gravity with limiting curvature the black hole singularity can be resolved and replaced by a static patch of de Sitter space. As a result of Hawking evaporation of these non-singular black holes, there remain stable remnants with vanishing Hawking temperature. [ABSTRACT FROM AUTHOR]

Published

2019

5. Asymptotically free mimetic gravity.

Author

Chamseddine, Ali H., Mukhanov, Viatcheslav, and Russ, Tobias B.

Subjects

*GRAVITY, *SCALAR field theory, *QUANTUM fluctuations, *CURVATURE, *GRAVITATIONAL constant

Abstract

The idea of "asymptotically free" gravity is implemented using a constrained mimetic scalar field. The effective gravitational constant is assumed to vanish at some limiting curvature. As a result singularities in spatially flat Friedmann and Kasner universes are avoided. Instead, the solutions in both cases approach a de Sitter metric with limiting curvature. We show that quantum metric fluctuations vanish when this limiting curvature is approached. [ABSTRACT FROM AUTHOR]

Published

2019