Add to ORKGIsolated horizon conditions specialized to spherical symmetry can be imposed directly at the quantum level. This answers several questions concerning horizon degrees of freedom, which are seen to be related to orientation, and its fluctuations at the kinematical as well as dynamical level. In particular, in the absence of scalar or fermionic matter the horizon area is an approximate quantum observable. Including different kinds of matter fields allows to probe several aspects of the Hamiltonian constraint of quantum geometry that are important in inhomogeneous situations
none3siIt is congruous with the quantum nature of the world to view the spacetime geometry as an eme...
Abstract. We review our recent proposal of a method to extend the quantization of spherically symmet...
AbstractA quantum isolated horizon can be modelled by an SU(2) Chern–Simons theory on a punctured 2-...
Isolated horizon conditions specialized to spherical symmetry can be imposed directly at the quantum...
The kinematical setting of spherically symmetric quantum geometry, derived from the full theory of l...
The Horizon Quantum Mechanics is an approach that allows one to analyse the gravitational radius of ...
Using the earlier developed classical Hamiltonian framework as the point of departure, we carry out ...
We show that the spherically symmetric isolated horizon can be described in terms of an SU(2)SU(2) c...
AbstractWe show that the spherically symmetric isolated horizon can be described in terms of an SU(2...
We review the black hole entropy calculation in the framework of Loop Quantum Gravity based on the q...
Black Holes have always played a central role in investigations of quantum gravity. This includes bo...
We review recent developments in the treatment of spherically symmetric black holes in loop quantum ...
We study the classical field theoretical formulation of static generic isolated horizons in a manife...
We construct condensate states encoding the continuum spherically symmetric quantum geometry of an i...
We study the extent of quantum gravitational effects in the internal region of non-singular, Hayward...
none3siIt is congruous with the quantum nature of the world to view the spacetime geometry as an eme...
Abstract. We review our recent proposal of a method to extend the quantization of spherically symmet...
AbstractA quantum isolated horizon can be modelled by an SU(2) Chern–Simons theory on a punctured 2-...
Isolated horizon conditions specialized to spherical symmetry can be imposed directly at the quantum...
The kinematical setting of spherically symmetric quantum geometry, derived from the full theory of l...
The Horizon Quantum Mechanics is an approach that allows one to analyse the gravitational radius of ...
Using the earlier developed classical Hamiltonian framework as the point of departure, we carry out ...
We show that the spherically symmetric isolated horizon can be described in terms of an SU(2)SU(2) c...
AbstractWe show that the spherically symmetric isolated horizon can be described in terms of an SU(2...
We review the black hole entropy calculation in the framework of Loop Quantum Gravity based on the q...
Black Holes have always played a central role in investigations of quantum gravity. This includes bo...
We review recent developments in the treatment of spherically symmetric black holes in loop quantum ...
We study the classical field theoretical formulation of static generic isolated horizons in a manife...
We construct condensate states encoding the continuum spherically symmetric quantum geometry of an i...
We study the extent of quantum gravitational effects in the internal region of non-singular, Hayward...
none3siIt is congruous with the quantum nature of the world to view the spacetime geometry as an eme...
Abstract. We review our recent proposal of a method to extend the quantization of spherically symmet...
AbstractA quantum isolated horizon can be modelled by an SU(2) Chern–Simons theory on a punctured 2-...