Add to ORKGWe are entering an era where the numerical construction of generic spacetimes is becoming a reality. The use of computer simulations, in principle, allows us to solve Einstein equations in their full generality and unravel important messages so far hidden in the theory. Despite the problems still found in present applications, significant progress is being achieved in a number of areas where simulations are on the verge of providing useful physical information. This article reviews recent progress made in the field, paying particular attention to black hole spacetimes and discuss open problems and prospects for the future
We give a status report on our project targeted at performing numerical simulations of a head-on col...
We review recent progress in the application of numerical relativity techniques to astrophysics and ...
We review recent progress in the application of numerical relativity techniques to astrophysics and ...
I review recent developments in numerical relativity, focussing on progress made in 3D black hole ev...
Numerical relativity is finally approaching a state where the evolution of rather general (3+1)-dime...
Numerical relativity has made big strides over the last decade. A number of problems that have plagu...
The demand to obtain answers to highly complex problems within strong-field gravity has been met wit...
Numerical relativity has come a long way in the last three decades and is now reaching a state of ma...
The large scale binary black hole effort in numerical relativity has led to an increasing distinctio...
The demand to obtain answers to highly complex problems within strong-field gravity has been met wit...
In this thesis, we discuss applications of numerical relativity in a variety of complex settings. Af...
The large scale binary black hole effort in numerical relativity has led to an increasing distinctio...
We review recent progress in the application of numerical relativity techniques to astrophysics and ...
The first attempts at solving a binary black hole spacetime date back to the 1960s, with the pioneer...
Numerical-relativity (NR) simulations of compact binaries are expected to be an invaluable tool in g...
We give a status report on our project targeted at performing numerical simulations of a head-on col...
We review recent progress in the application of numerical relativity techniques to astrophysics and ...
We review recent progress in the application of numerical relativity techniques to astrophysics and ...
I review recent developments in numerical relativity, focussing on progress made in 3D black hole ev...
Numerical relativity is finally approaching a state where the evolution of rather general (3+1)-dime...
Numerical relativity has made big strides over the last decade. A number of problems that have plagu...
The demand to obtain answers to highly complex problems within strong-field gravity has been met wit...
Numerical relativity has come a long way in the last three decades and is now reaching a state of ma...
The large scale binary black hole effort in numerical relativity has led to an increasing distinctio...
The demand to obtain answers to highly complex problems within strong-field gravity has been met wit...
In this thesis, we discuss applications of numerical relativity in a variety of complex settings. Af...
The large scale binary black hole effort in numerical relativity has led to an increasing distinctio...
We review recent progress in the application of numerical relativity techniques to astrophysics and ...
The first attempts at solving a binary black hole spacetime date back to the 1960s, with the pioneer...
Numerical-relativity (NR) simulations of compact binaries are expected to be an invaluable tool in g...
We give a status report on our project targeted at performing numerical simulations of a head-on col...
We review recent progress in the application of numerical relativity techniques to astrophysics and ...
We review recent progress in the application of numerical relativity techniques to astrophysics and ...