Black hole perturbation theory is typically studied on time surfaces that extend between the bifurcation sphere and spatial infinity. From a physical point of view, however, it may be favorable to employ time surfaces that extend between the future event horizon and future null infinity. This framework resolves problems regarding the representation of quasinormal mode eigenfunctions and the construction of short-ranged potentials for the perturbation equations in frequency domain
We study gravitational perturbations of Schwarzschild spacetime by solving a hyperboloidal initial v...
The author is grateful to Miguel Sanchez for useful discussions. Furthermore, the author thanks the ...
We apply a new analytic scheme, developed in a preceding paper, in order to calculate the late time ...
Black hole perturbation theory is typically studied on time surfaces that extend between the bifurca...
Nonspherical perturbation theory has been necessary to understand the meaning of radiation in spacet...
We present numerical simulations of a rotating black hole distorted by a pulse of ingoing gravitatio...
In a companion paper [1], we have presented a cross-correlation approach to near-horizon physics in ...
This paper presents a quasi-local method of studying the physics of dynamical black holes in numeric...
The characteristic initial value problem has been implemented as a robust computational algorithm (t...
This paper is concerned with several not-quantum aspects of black holes, with emphasis on theoretica...
We study the geometry of the event horizon of a spacetime in which a small compact object plunges in...
Many simulations of gravitational collapse to black holes become inaccurate before the total emitted...
Lorentz-violating gravity theories with a preferred foliation can have instantaneous propagation. No...
In this thesis we present a new aspect pertaining to the effective field theory of general relativity...
The classical definition of a black hole in terms of an event horizon relies on global properties of...
We study gravitational perturbations of Schwarzschild spacetime by solving a hyperboloidal initial v...
The author is grateful to Miguel Sanchez for useful discussions. Furthermore, the author thanks the ...
We apply a new analytic scheme, developed in a preceding paper, in order to calculate the late time ...
Black hole perturbation theory is typically studied on time surfaces that extend between the bifurca...
Nonspherical perturbation theory has been necessary to understand the meaning of radiation in spacet...
We present numerical simulations of a rotating black hole distorted by a pulse of ingoing gravitatio...
In a companion paper [1], we have presented a cross-correlation approach to near-horizon physics in ...
This paper presents a quasi-local method of studying the physics of dynamical black holes in numeric...
The characteristic initial value problem has been implemented as a robust computational algorithm (t...
This paper is concerned with several not-quantum aspects of black holes, with emphasis on theoretica...
We study the geometry of the event horizon of a spacetime in which a small compact object plunges in...
Many simulations of gravitational collapse to black holes become inaccurate before the total emitted...
Lorentz-violating gravity theories with a preferred foliation can have instantaneous propagation. No...
In this thesis we present a new aspect pertaining to the effective field theory of general relativity...
The classical definition of a black hole in terms of an event horizon relies on global properties of...
We study gravitational perturbations of Schwarzschild spacetime by solving a hyperboloidal initial v...
The author is grateful to Miguel Sanchez for useful discussions. Furthermore, the author thanks the ...
We apply a new analytic scheme, developed in a preceding paper, in order to calculate the late time ...