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Challenging the Paradigm of Singularity Excision in Gravitational Collapse

Luca BaiottiMax-Planck-Institut für Gravitationsphysik, Albert-Einstein-Institut, 14476 Golm, GermanyLuciano RezzollaDepartment of Physics, Louisiana State University, Baton Rouge, Louisiana 70803 USA
2006en
ABI

Abstract

A paradigm deeply rooted in modern numerical relativity calculations prescribes the removal of those regions of the computational domain where a physical singularity may develop. We here challenge this paradigm by performing three-dimensional simulations of the collapse of uniformly rotating stars to black holes without excision. We show that this choice, combined with suitable gauge conditions and the use of minute numerical dissipation, improves dramatically the long-term stability of the evolutions. In turn, this allows for the calculation of the waveforms well beyond what was previously possible, providing information on the black-hole ringing and setting a new mark on the present knowledge of the gravitational-wave emission from the stellar collapse to a rotating black hole.

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