Add to ORKGAbstract. Moving puncture coordinates are commonly used in numerical simulations of black holes. Their properties for vacuum Schwarzschild black holes have been analyzed in a number of studies. The behavior of moving-puncture coordinates in spacetimes containing matter, however, is less well understood. In this paper we explore the behavior of these coordinates for Oppenheimer-Snyder collapse, i.e., the collapse of a uniform density, pressureless sphere of dust initially at rest to a black hole. Oppenheimer-Snyder collapse provides a stringent test of the singularity-avoiding properties of moving-puncture coordinates, since the singularity can form more quickly than it would for matter with pressure. Our results include analytical expressio...
The ``moving puncture'' technique has led to dramatic advancements in the numerical simulations of b...
We investigate the stationary end-state obtained by evolving a collapsing spherical star with the ga...
International audienceIn calculations of gravitational collapse to form black holes, trapping horizo...
Currently the most popular method to evolve black-hole binaries is the "moving puncture" method. It ...
Significant advances in numerical simulations of black-hole binaries have recently been achieved usi...
When simulating the inspiral and coalescence of a binary black-hole system, special care needs to be...
Significant advances in numerical simulations of Black holes binaries have recently been achieved us...
The thesis investigate a simple model of a gravitational collapse. The mo- del considers a dust of c...
We expand upon our previous analysis of numerical moving-puncture simulations of the Schwarzschild s...
The moving-puncture technique has led to dramatic advancements in the numerical simulations of bin...
Models of black-hole evaporation and the information paradox often assume a fully formed black hole ...
Based on general relativity, J. R. Oppenheimer proved that massive celestial bodies may collapse int...
The ``moving puncture'' technique has led to dramatic advancements in the numerical simulations of b...
We investigate the stationary end-state obtained by evolving a collapsing spherical star with the ga...
International audienceIn calculations of gravitational collapse to form black holes, trapping horizo...
Currently the most popular method to evolve black-hole binaries is the "moving puncture" method. It ...
Significant advances in numerical simulations of black-hole binaries have recently been achieved usi...
When simulating the inspiral and coalescence of a binary black-hole system, special care needs to be...
Significant advances in numerical simulations of Black holes binaries have recently been achieved us...
The thesis investigate a simple model of a gravitational collapse. The mo- del considers a dust of c...
We expand upon our previous analysis of numerical moving-puncture simulations of the Schwarzschild s...
The moving-puncture technique has led to dramatic advancements in the numerical simulations of bin...
Models of black-hole evaporation and the information paradox often assume a fully formed black hole ...
Based on general relativity, J. R. Oppenheimer proved that massive celestial bodies may collapse int...
The ``moving puncture'' technique has led to dramatic advancements in the numerical simulations of b...
We investigate the stationary end-state obtained by evolving a collapsing spherical star with the ga...
International audienceIn calculations of gravitational collapse to form black holes, trapping horizo...