http://arxiv.org/abs/1911.03302
The up-to-now only binary neutron star merger gravitational wave event with detected electromagnetic counterparts, GRB170817A, occurred in a rarefied medium with a density smaller than $10^{-3}-10^{-2}~{\rm cm}^{-3}$. As neutron star binaries are imparted kicks upon formation, and due to their long delay-times before merger, such low-density circum-merger media are generally expected. However, there is some indirect evidence for a class of faster-merging binaries, which would coalesce in denser environments. Nonetheless, astronomical data is largely inconclusive on the possibility of these high-density mergers. We describe a method to directly probe this hypothetical population of high-density mergers through multi-messenger observations of binary neutron star merger afterglows, exploiting the sharp sensitivity of these to the circum-merger medium density. This method is based on a yet-to-be-collected sample of merger afterglows. Its constraining power is large even with a small sample of events. We discuss the method’s limitations and applicability. In the upcoming era of 3$^{\rm rd}$-generation gravitational wave detectors, this method’s potential will be fully realized as it will allow to probe mergers having occurred soon after the peak of cosmic star formation.
R. Duque, P. Beniamini, F. Daigne, et. al.
Mon, 11 Nov 19
82/105
Comments: 7 pages, 4 figures, to be submitted to A&A