Add to ORKGWe present a new effective description of macroscopic Kruskal black holes that incorporates corrections due to quantum geometry effects of loop quantum gravity. It encompasses both the interior region that contains classical singularities and the exterior asymptotic region. Singularities are naturally resolved by the quantum geometry effects of loop quantum gravity, and the resulting quantum extension of the full Kruskal space-time is free of all the known limitations of previous investigations of the Schwarzschild interior. We compare and contrast our results with these investigations and also with the expectations based on the AdS/CFT duality
Using effective field theory techniques, we compute quantum corrections to spherically symmetric sol...
General relativity successfully describes space–times at scales that we can observe and probe today,...
In this paper we calculate modifications to the Schwarzschild solution by using a semiclassical anal...
A new description of macroscopic Kruskal black holes that incorporates the quantum geometry correcti...
The loop quantization of the Schwarzschild interior region, as described by a homogeneous anisotropi...
In homogeneous cosmologies, quantum geometry effects lead to a resolution of the classical singulari...
We summarize recent results concerning the quantization of the complete extension of the Schwarzschi...
The physical interpretation and eventual fate of gravitational singularities in a theory surpassing ...
We present an effective theory to describe the quantization of spherically symmetric vacuum motivate...
In homogeneous cosmologies, quantum geometry effects lead to a resolution of the classical singulari...
We continue our investigation of an improved quantization scheme for spherically symmetric loop quan...
We study the quantization of spherically symmetric vacuum spacetimes within loop quantum gravity. In...
We investigate how the resolution of the singularity problem for the Schwarzschild black hole could ...
Black Holes have always played a central role in investigations of quantum gravity. This includes bo...
We apply techniques recently introduced in quantum cosmology to the Schwarzschild metric inside the ...
Using effective field theory techniques, we compute quantum corrections to spherically symmetric sol...
General relativity successfully describes space–times at scales that we can observe and probe today,...
In this paper we calculate modifications to the Schwarzschild solution by using a semiclassical anal...
A new description of macroscopic Kruskal black holes that incorporates the quantum geometry correcti...
The loop quantization of the Schwarzschild interior region, as described by a homogeneous anisotropi...
In homogeneous cosmologies, quantum geometry effects lead to a resolution of the classical singulari...
We summarize recent results concerning the quantization of the complete extension of the Schwarzschi...
The physical interpretation and eventual fate of gravitational singularities in a theory surpassing ...
We present an effective theory to describe the quantization of spherically symmetric vacuum motivate...
In homogeneous cosmologies, quantum geometry effects lead to a resolution of the classical singulari...
We continue our investigation of an improved quantization scheme for spherically symmetric loop quan...
We study the quantization of spherically symmetric vacuum spacetimes within loop quantum gravity. In...
We investigate how the resolution of the singularity problem for the Schwarzschild black hole could ...
Black Holes have always played a central role in investigations of quantum gravity. This includes bo...
We apply techniques recently introduced in quantum cosmology to the Schwarzschild metric inside the ...
Using effective field theory techniques, we compute quantum corrections to spherically symmetric sol...
General relativity successfully describes space–times at scales that we can observe and probe today,...
In this paper we calculate modifications to the Schwarzschild solution by using a semiclassical anal...