AbstractWe treat spherically symmetric black holes in Gauss–Bonnet gravity by imposing boundary conditions on fluctuating metric on the horizon. Obtained effective two-dimensional theory admits Virasoro algebra near the horizon. This enables, with the help of Cardy formula, evaluation of the number of states. Obtained results coincide with the known macroscopic expression for the entropy of black holes in Gauss–Bonnet gravity
We show that a microscopic entropy formula based on Virasoro algebra follows from properties of stat...
We show that a microscopic entropy formula based on Virasoro algebra follows from properties of stat...
Using Virasoro algebra approach, black hole entropy formula for a general class of higher curvature ...
We treat spherically symmetric black holes in Gauss–Bonnet gravity by imposing boundary conditions o...
We treat spherically symmetric black holes in Gauss–Bonnet gravity by imposing boundary conditions o...
We treat spherically symmetric black holes in Gauss-Bonnet gravity by imposing boundary conditions o...
We treat D-dimensional black holes with Killing horizon for extended Gauss–Bonnet gravity. We use th...
We treat D-dimensional black holes with Killing horizon for extended Gauss–Bonnet gravity. We use th...
AbstractWe treat D-dimensional black holes with Killing horizon for extended Gauss–Bonnet gravity. W...
We treat D-dimensional black holes with Killing horizon for extended Gauss-Bonnet gravity. We use Ca...
To ask a question about a black hole in quantum gravity, one must restrict initial or boundary data ...
AbstractWe discuss the holography and entropy bounds in Gauss–Bonnet gravity theory. By applying a G...
Abstract. We review the black hole entropy calculation in the framework of Loop Quantum Gravity base...
Using Virasoro algebra approach, black hole entropy formula for a general class of higher curvature ...
We show that microscopic entropy formula based on Virasoro algebra follows from properties of statio...
We show that a microscopic entropy formula based on Virasoro algebra follows from properties of stat...
We show that a microscopic entropy formula based on Virasoro algebra follows from properties of stat...
Using Virasoro algebra approach, black hole entropy formula for a general class of higher curvature ...
We treat spherically symmetric black holes in Gauss–Bonnet gravity by imposing boundary conditions o...
We treat spherically symmetric black holes in Gauss–Bonnet gravity by imposing boundary conditions o...
We treat spherically symmetric black holes in Gauss-Bonnet gravity by imposing boundary conditions o...
We treat D-dimensional black holes with Killing horizon for extended Gauss–Bonnet gravity. We use th...
We treat D-dimensional black holes with Killing horizon for extended Gauss–Bonnet gravity. We use th...
AbstractWe treat D-dimensional black holes with Killing horizon for extended Gauss–Bonnet gravity. W...
We treat D-dimensional black holes with Killing horizon for extended Gauss-Bonnet gravity. We use Ca...
To ask a question about a black hole in quantum gravity, one must restrict initial or boundary data ...
AbstractWe discuss the holography and entropy bounds in Gauss–Bonnet gravity theory. By applying a G...
Abstract. We review the black hole entropy calculation in the framework of Loop Quantum Gravity base...
Using Virasoro algebra approach, black hole entropy formula for a general class of higher curvature ...
We show that microscopic entropy formula based on Virasoro algebra follows from properties of statio...
We show that a microscopic entropy formula based on Virasoro algebra follows from properties of stat...
We show that a microscopic entropy formula based on Virasoro algebra follows from properties of stat...
Using Virasoro algebra approach, black hole entropy formula for a general class of higher curvature ...
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