Follow-up of the Neutron Star Bearing Gravitational Wave Candidate Events S190425z and S190426c with MMT and SOAR
G. Hosseinzadeh, P. S. Cowperthwaite, S. Gomez, V. A. Villar, M., Nicholl, R. Margutti, E. Berger, R. Chornock, K. Paterson, W. Fong, V., Savchenko, P. Short, K. D. Alexander, P. K. Blanchard, J. Braga, M. L., Calkins, R. Cartier, D. L. Coppejans, T. Eftekhari, T. Laskar, C. Ly

TL;DR
This study reports optical follow-up observations of two neutron star merger candidates, analyzing coverage, depth, and implications for kilonova detection and short GRB counterparts, highlighting the importance of localization precision.
Contribution
It provides the first detailed optical follow-up analysis of GW candidates S190425z and S190426c, evaluating coverage, depth, and implications for kilonova and GRB counterpart detection.
Findings
Coverage up to 40-60% for GW170817-like kilonovae.
Optical follow-up can detect counterparts up to 300 Mpc.
Localization areas larger than 1000 deg² hinder counterpart identification.
Abstract
On 2019 April 25.346 and 26.640 UT the LIGO and Virgo gravitational wave (GW) observatories announced the detection of the first candidate events in Observing Run 3 that contain at least one neutron star. S190425z is a likely binary neutron star (BNS) merger at Mpc, while S190426c is possibly the first NS-BH merger ever detected, at Mpc, although with marginal statistical significance. Here we report our optical follow-up observations for both events using the MMT 6.5-m telescope, as well as our spectroscopic follow-up of candidate counterparts (which turned out to be unrelated) with the 4.1-m SOAR telescope. We compare to publicly reported searches, explore the overall areal coverage and depth, and evaluate those in relation to the optical/NIR kilonova emission from the BNS merger GW170817, to theoretical kilonova models, and to short GRB…
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