Add to ORKGWe review discoveries in the nonlinear dynamics of curved spacetime, largely made possible by numerical solutions of Einstein's equations. We discuss critical phenomena and self-similarity in gravitational collapse, the behavior of spacetime curvature near singularities, the instability of black strings in five spacetime dimensions, and the collision of four-dimensional black holes. We also discuss the prospects for further discoveries in geometrodynamics via observations of gravitational waves
The splitting of spacetime into space and time is analyzed by abstract methods, coordinate methods, ...
We study various aspects of black holes and gravitational collapse in Einstein-Yang-Mills theory und...
International audienceWith the arrival of the era of gravitational wave astronomy, the strong gravit...
We review discoveries in the nonlinear dynamics of curved spacetime, largely made possible by numeri...
Numerical simulations have revealed two types of physical structures, made from curved spacetime, th...
Although general relativity is among the oldest and most studied of all nonlinear theories in physic...
This thesis studies the dynamics of geodesic motion within a curved spacetime around a Schwarzschild...
I address a variety of problems in contemporary cosmology, both with the models and theories that co...
This book is devoted to researchers who would like to investigate interactions among gravitational w...
There are still many important unsolved problems in general relativity, two of which are the stabil...
We investigate the dynamics of the geometric transitions associated to compactified spacetimes. By i...
It is well known that gravitational waves interact in a non-linear way. This makes it difficult to d...
In the gravitational collapse of matter beyond spherical symmetry, gravitational waves are necessari...
In this thesis I consider three different projects in numerical relativity. The first one is a study...
We demonstrate that evolutions of three-dimensional, strongly non-linear gravitational waves can be ...
The splitting of spacetime into space and time is analyzed by abstract methods, coordinate methods, ...
We study various aspects of black holes and gravitational collapse in Einstein-Yang-Mills theory und...
International audienceWith the arrival of the era of gravitational wave astronomy, the strong gravit...
We review discoveries in the nonlinear dynamics of curved spacetime, largely made possible by numeri...
Numerical simulations have revealed two types of physical structures, made from curved spacetime, th...
Although general relativity is among the oldest and most studied of all nonlinear theories in physic...
This thesis studies the dynamics of geodesic motion within a curved spacetime around a Schwarzschild...
I address a variety of problems in contemporary cosmology, both with the models and theories that co...
This book is devoted to researchers who would like to investigate interactions among gravitational w...
There are still many important unsolved problems in general relativity, two of which are the stabil...
We investigate the dynamics of the geometric transitions associated to compactified spacetimes. By i...
It is well known that gravitational waves interact in a non-linear way. This makes it difficult to d...
In the gravitational collapse of matter beyond spherical symmetry, gravitational waves are necessari...
In this thesis I consider three different projects in numerical relativity. The first one is a study...
We demonstrate that evolutions of three-dimensional, strongly non-linear gravitational waves can be ...
The splitting of spacetime into space and time is analyzed by abstract methods, coordinate methods, ...
We study various aspects of black holes and gravitational collapse in Einstein-Yang-Mills theory und...
International audienceWith the arrival of the era of gravitational wave astronomy, the strong gravit...