Follow-up Survey for the Binary Black Hole Merger GW200224_222234 Using Subaru/HSC and GTC/OSIRIS

Ohgami, Takayuki; Becerra González, Josefa; Tominaga, Nozomu; Morokuma, Tomoki; Utsumi, Yousuke; Niino, Yuu; Tanaka, Masaomi; Banerjee, Smaranika; Poidevin, Frédérick; Acosta-Pulido, Jose Antonio; Pérez-Fournon, Ismael; Muñoz-Darias, Teo; Akitaya, Hiroshi; Yanagisawa, Kenshi; Sasada, Mahito; Yoshida, Michitoshi; Simunovic, Mirko; Ohsawa, Ryou; Tanaka, Ichi; Terai, Tsuyoshi; Takagi, Yuhei; J-GEM Collaboration
Bibliographical reference

The Astrophysical Journal

Advertised on:
4
2023
Number of authors
22
IAC number of authors
5
Citations
4
Refereed citations
3
Description
The LIGO/Virgo detected a gravitational wave (GW) event, named GW200224_222234 (also known as S200224ca) and classified as a binary-black hole coalescence, on 2020 February 24. Given its relatively small localization skymap (71 deg2 for a 90% credible region; revised to 50 deg2 in GWTC-3), we performed target-of-opportunity observations using the Subaru/Hyper Suprime-Cam (HSC) in the r2 and z bands. Observations were conducted on 2020 February 25 and 28 and March 23, with the first epoch beginning 12.3 hr after the GW detection. The survey covered the highest-probability sky area of 56.6 deg2, corresponding to a 91% probability. This was the first deep follow-up (m r ≳ 24, m z ≳ 23) for a binary-black hole merger covering >90% of the localization. By performing image subtraction and candidate screening including light-curve fitting with transient templates and examples, we found 22 off-nucleus transients that were not ruled out as the counterparts of GW200224_222234 with our Subaru/HSC data alone. We also performed GTC/OSIRIS spectroscopy of the probable host galaxies for five candidates; two are likely to be located within the 3D skymap, whereas the others are not. In conclusion, 19 transients remain as possible optical counterparts of GW200224_222234; but we could not identify a unique promising counterpart. If there are no counterparts in the remaining candidates, the upper limits of the optical luminosity are $\nu {L}_{\nu }\lt {5.2}_{-1.9}^{+2.4}\times {10}^{41}$ erg s-1 and $\nu {L}_{\nu }\lt {1.8}_{-0.6}^{+0.8}\times {10}^{42}$ erg s-1 in the r2 and z bands, respectively, at ~12 hr after GW detection. We also discuss improvements in the strategies of optical follow-ups for future GW events.
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