Add to ORKGWe present the first simulations of non-headon (grazing) collisions of binary black holes in which the black hole singularities have been excised from the computational domain. Initially two equal mass black holes $m$ are separated a distance $\approx10m$ and with impact parameter $\approx2m$. Initial data are based on superposed, boosted (velocity $\approx0.5c$) solutions of single black holes in Kerr-Schild coordinates. Both rotating and non-rotating black holes are considered. The excised regions containing the singularities are specified by following the dynamics of apparent horizons. Evolutions of up to $t \approx 35m$ are obtained in which two initially separate apparent horizons are present for $t\approx3.8m$. At that time a single e...
We solve the Hamiltonian and momentum constraints of general relativity for two black-holes with nea...
The understanding of strong-field dynamics near black-hole horizons is a long-standing and challengi...
In this thesis we use computational techniques (numerical simulations) to study different stages of ...
We present the first simulations of non-headon (grazing) collisions of binary black holes in which t...
We present results for full 3D evolutions of two colliding black holes (BHs), with angular momentum,...
We present results for two colliding black holes (BHs), with angular momentum, spin, and unequal mas...
Using approximate techniques we study the final moments of the collision of two (individually non-sp...
We present long-term-stable and convergent evolutions of head-on black hole collisions and extractio...
This dissertation explores numerical models of the orbit, inspiral, and merger phases of black hole ...
Binary black hole interactions provide potentially the strongest source of gravitational radiation f...
Binary black-hole interactions provide potentially the strongest source of gravitational radiation f...
Binary black-hole interactions provide potentially the strongest source of gravitational radiation f...
When simulating the inspiral and coalescence of a binary black-hole system, special care needs to be...
We present a new numerical code developed for the evolution of binary black-hole spacetimes using di...
We use the Kerr-Schild type Teukolsky equation (horizon penetrating) to evolve binary black hole ini...
We solve the Hamiltonian and momentum constraints of general relativity for two black-holes with nea...
The understanding of strong-field dynamics near black-hole horizons is a long-standing and challengi...
In this thesis we use computational techniques (numerical simulations) to study different stages of ...
We present the first simulations of non-headon (grazing) collisions of binary black holes in which t...
We present results for full 3D evolutions of two colliding black holes (BHs), with angular momentum,...
We present results for two colliding black holes (BHs), with angular momentum, spin, and unequal mas...
Using approximate techniques we study the final moments of the collision of two (individually non-sp...
We present long-term-stable and convergent evolutions of head-on black hole collisions and extractio...
This dissertation explores numerical models of the orbit, inspiral, and merger phases of black hole ...
Binary black hole interactions provide potentially the strongest source of gravitational radiation f...
Binary black-hole interactions provide potentially the strongest source of gravitational radiation f...
Binary black-hole interactions provide potentially the strongest source of gravitational radiation f...
When simulating the inspiral and coalescence of a binary black-hole system, special care needs to be...
We present a new numerical code developed for the evolution of binary black-hole spacetimes using di...
We use the Kerr-Schild type Teukolsky equation (horizon penetrating) to evolve binary black hole ini...
We solve the Hamiltonian and momentum constraints of general relativity for two black-holes with nea...
The understanding of strong-field dynamics near black-hole horizons is a long-standing and challengi...
In this thesis we use computational techniques (numerical simulations) to study different stages of ...