Core collapse in massive scalar-tensor gravity
Abstract
This paper provides an extended exploration of the inverse-chirp gravitational-wave signals from stellar collapse in massive scalar-tensor gravity reported in [Phys. Rev. Lett. {\bf 119}, 201103]. We systematically explore the parameter space that characterizes the progenitor stars, the equation of state and the scalar-tensor theory of the core collapse events. We identify a remarkably simple and straightforward classification scheme of the resulting collapse events. For any given set of parameters, the collapse leads to one of three end states, a weakly scalarized neutron star, a strongly scalarized neutron star or a black hole, possibly formed in multiple stages. The latter two end states can lead to strong gravitational-wave signals that may be detectable in present continuous-wave searches with ground-based detectors. We identify a very sharp boundary in the parameter space that separates events with strong gravitational-wave emission from those with negligible radiation.
Keywords
Cite
@article{arxiv.2005.09728,
title = {Core collapse in massive scalar-tensor gravity},
author = {Roxana Rosca-Mead and Ulrich Sperhake and Christopher J. Moore and Michalis Agathos and Davide Gerosa and Christian D. Ott},
journal= {arXiv preprint arXiv:2005.09728},
year = {2020}
}
Comments
26 pages, 19 figures, to match published version in Phys.Rev.D