Add to ORKGThe final fate of spherically symmetric collapse of a perfect fluid which follows the $\gamma$-law equation of state and adiabatic condition is investigated. Full general relativistic hydrodynamics is solved numerically using a retarded time coordinate, the so-called observer time coordinate. Thanks to this coordinate, the causal structure of the resultant space-time is automatically constructed. Then, it is found that a globally naked, shell-focusing singularity can occur at the center from relativistically high-density, isentropic and time symmetric initial data if $\gamma \alt 1.01$ within the numerical accuracy. The result is free from the assumption of self-similarity. The upper limit of $\gamma$ with which a naked singularity can occu...
The present analytical understanding on the nature of the singularities which form at the endstate o...
Gravitational collapse of a spherically symmetric cloud has been extensively studied to investigate ...
Generalizing earlier results on the initial data and the final fate of dust collapse, we study here ...
The gravitational collapse of spherical, barotropic perfect fluids is analyzed here. For the first t...
The gravitational collapse of spherical, barotropic perfect fluids is analyzed here. For the first t...
We will describe here the structure of singularity forming in gravitational collapse of spherically ...
Choptuik has demonstrated that naked singularities can arise in gravitational collapse from smooth, ...
The gravitational collapse of spherical, barotropic perfect fluids is analyzed here. For the first ...
The gravitational collapse of spherical, barotropic perfect fluids is analyzed here. For the first ...
The gravitational collapse of spherical, barotropic perfect fluids is analyzed here. For the first ...
The gravitational collapse of spherical, barotropic perfect fluids is analyzed here. For the first t...
Spherical dust collapse generally forms a shell focusing naked singularity at the symmetric center. ...
The naked singularity occurs in the generic collapse of an inhomogeneous dust ball. We study even-pa...
We study the spherically symmetric collapse of a fluid with non-vanishing radial pressure in higher ...
The spherical gravitational collapse of a compact packet consisting of perfect fluid is studied. The...
The present analytical understanding on the nature of the singularities which form at the endstate o...
Gravitational collapse of a spherically symmetric cloud has been extensively studied to investigate ...
Generalizing earlier results on the initial data and the final fate of dust collapse, we study here ...
The gravitational collapse of spherical, barotropic perfect fluids is analyzed here. For the first t...
The gravitational collapse of spherical, barotropic perfect fluids is analyzed here. For the first t...
We will describe here the structure of singularity forming in gravitational collapse of spherically ...
Choptuik has demonstrated that naked singularities can arise in gravitational collapse from smooth, ...
The gravitational collapse of spherical, barotropic perfect fluids is analyzed here. For the first ...
The gravitational collapse of spherical, barotropic perfect fluids is analyzed here. For the first ...
The gravitational collapse of spherical, barotropic perfect fluids is analyzed here. For the first ...
The gravitational collapse of spherical, barotropic perfect fluids is analyzed here. For the first t...
Spherical dust collapse generally forms a shell focusing naked singularity at the symmetric center. ...
The naked singularity occurs in the generic collapse of an inhomogeneous dust ball. We study even-pa...
We study the spherically symmetric collapse of a fluid with non-vanishing radial pressure in higher ...
The spherical gravitational collapse of a compact packet consisting of perfect fluid is studied. The...
The present analytical understanding on the nature of the singularities which form at the endstate o...
Gravitational collapse of a spherically symmetric cloud has been extensively studied to investigate ...
Generalizing earlier results on the initial data and the final fate of dust collapse, we study here ...