Dynamics and Gravitational Wave Signature of Collapsar Formation

Christian D. Ott; Christian Reisswig; Erik Schnetter; Evan O'Connor; Ulrich Sperhake; Frank Loeffler; Peter Diener; Ernazar Abdikamalov; Ian Hawke; Adam Burrows

Dynamics and Gravitational Wave Signature of Collapsar Formation

ORAL

Abstract

We present results from 3+1 general relativistic simulations of rotating core collapse in the context of the collapsar model for long gamma-ray bursts. We employ a realistic progenitor, rotation based on results of stellar evolution calculations, and a simplified equation of state. Our simulations track self-consistently collapse, bounce, the postbounce phase, black hole formation, and the subsequent early hyperaccretion phase. We extract gravitational waves from the spacetime curvature and identify a unique gravitational wave signature associated with the early phase of collapsar formation.

^*This work was supported by NSF under grant nos. AST-0855535, PHY-0960291,OCI-0905046, OCI-0721915 and by the Sherman Fairchild Foundation.

May 1, 2011, 8:30 AM – May 1, 2011, 8:42 AM

Authors

Christian D. Ott
- Caltech
- California Institute of Technology
- TAPIR, Caltech
- TAPIR, California Institute of Technology
Christian Reisswig
- TAPIR, California Institute of Technology
Erik Schnetter
- Perimeter Institute
Evan O'Connor
- TAPIR, California Institute of Technology
Ulrich Sperhake
- CSIC-IEEC Barcelona
Frank Loeffler
- CCT, Louisiana State University
Peter Diener
- CCT, Louisiana State University
Ernazar Abdikamalov
- CCT, Louisiana State University
Ian Hawke
- School of Mathematics, University of Southampton
Adam Burrows
- Department of Astrophysical Sciences, Princeton University