The Astrophysical Journal (Jan 2024)

Gravitational-wave Electromagnetic Counterpart Korean Observatory (GECKO): GECKO Follow-up Observation of GW190425

  • Gregory S. H. Paek,
  • Myungshin Im,
  • Joonho Kim,
  • Gu Lim,
  • Bomi Park,
  • Changsu Choi,
  • Sophia Kim,
  • Claudio Barbieri,
  • Om Sharan Salafia,
  • Insu Paek,
  • Suhyun Shin,
  • Jinguk Seo,
  • Hyung Mok Lee,
  • Chung-Uk Lee,
  • Seung-Lee Kim,
  • Hyun-Il Sung

DOI
https://doi.org/10.3847/1538-4357/ad0238
Journal volume & issue
Vol. 960, no. 2
p. 113

Abstract

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One of the keys to the success of multimessenger astronomy is the rapid identification of the electromagnetic wave counterpart, kilonova (KN), of the gravitational-wave (GW) event. Despite its importance, it is hard to find a KN associated with a GW event, due to a poorly constrained GW localization map and numerous signals that could be confused as a KN. Here, we present the Gravitational-wave Electromagnetic wave Counterpart Korean Observatory (GECKO) project, the GECKO observation of GW190425, and prospects of GECKO in the fourth observing run (O4) of the GW detectors. We outline our follow-up observation strategies during O3. In particular, we describe our galaxy-targeted observation criteria that prioritize based on galaxy properties. Armed with this strategy, we performed an optical and/or near-infrared follow-up observation of GW190425, the first binary neutron star merger event during the O3 run. Despite a vast localization area of 7460 deg ^2 , we observed 621 host galaxy candidates, corresponding to 29.5% of the scores we assigned, with most of them observed within the first 3 days of the GW event. Ten transients were discovered during this search, including a new transient with a host galaxy. No plausible KN was found, but we were still able to constrain the properties of potential KNe using upper limits. The GECKO observation demonstrates that GECKO can possibly uncover a GW170817-like KN at a distance <200 Mpc if the localization area is of the order of hundreds of square degrees, providing a bright prospect for the identification of GW electromagnetic wave counterparts during the O4 run.

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