# GROWTH on S190425z: Searching thousands of square degrees to identify an   optical or infrared counterpart to a binary neutron star merger with the   Zwicky Transient Facility and Palomar Gattini IR

**Authors:** Michael W. Coughlin, Tom\'as Ahumada, Shreya Anand, Kishalay De,, Matthew J. Hankins, Mansi M. Kasliwal, Leo P. Singer, Eric C. Bellm, Igor, Andreoni, S. Bradley Cenko, Jeff Cooke, Christopher M. Copperwheat, Alison M., Dugas, Jacob E. Jencson, Daniel A. Perley, Po-Chieh Yu, Varun Bhalerao, Harsh, Kumar, Joshua S. Bloom, G.C. Anupama, Michael C. B. Ashley, Ashot, Bagdasaryan, Rahul Biswas, David A. H. Buckley, Kevin B. Burdge, David O., Cook, John Cromer, Virginia Cunningham, Antonino D'A\`i, Richard G. Dekany,, Alexandre Delacroix, Simone Dichiara, Dmitry A. Duev, Anirban Dutta, Michael, Feeney, Sara Frederick, Pradip Gatkine, Shaon Ghosh, Daniel A. Goldstein, V., Zach Golkhou, Ariel Goobar, Matthew J. Graham, Hidekazu Hanayama, Takashi, Horiuchi, Tiara Hung, Saurabh W. Jha, Albert K. H. Kong, Matteo Giomi, David, L. Kaplan, V. R. Karambelkar, Marek Kowalski, Shrinivas R. Kulkarni, Thomas, Kupfer, Valentina La Parola, Frank J. Masci, Paolo Mazzali, Anna M. Moore,, Moses Mogotsi, James D. Neill, Chow-Choong Ngeow, Jorge Mart\'inez-Palomera,, M. Pavana, Eran O. Ofek, Atharva Sunil Patil, Reed Riddle, Mickael Rigault,, Ben Rusholme, Eugene Serabyn, David L. Shupe, Yashvi Sharma, Jesper, Sollerman, Jamie Soon, Kai Staats, Kirsty Taggart, Hanjie Tan, Tony, Travouillon, Eleonora Troja, Gaurav Waratkar, Yoichi Yatsu

arXiv: 1907.12645 · 2020-01-08

## TL;DR

This paper reports on a comprehensive follow-up search for optical and infrared counterparts to the binary neutron star merger event S190425z using ZTF and Palomar Gattini-IR, demonstrating the feasibility of systematic kilonova discovery over large sky areas.

## Contribution

The study presents the first large-scale optical and infrared follow-up campaign for a single-detector GW event, covering thousands of square degrees and identifying candidate counterparts.

## Key findings

- Covered 8000 deg$^2$ with ZTF, achieving 46% probability coverage.
- Identified 15 candidate counterparts, with two consistent with kilonovae but classified as supernovae.
- Palomar Gattini-IR found no viable candidates, showing the challenge of infrared follow-up.

## Abstract

The third observing run by LVC has brought the discovery of many compact binary coalescences. Following the detection of the first binary neutron star merger in this run (LIGO/Virgo S190425z), we performed a dedicated follow-up campaign with the Zwicky Transient Facility (ZTF) and Palomar Gattini-IR telescopes. The initial skymap of this single-detector gravitational wave (GW) trigger spanned most of the sky observable from Palomar Observatory. Covering 8000 deg$^2$ of the initial skymap over the next two nights, corresponding to 46\% integrated probability, ZTF system achieved a depth of $\approx$\,21 $m_\textrm{AB}$ in $g$- and $r$-bands. Palomar Gattini-IR covered 2200 square degrees in $J$-band to a depth of 15.5\,mag, including 32\% integrated probability based on the initial sky map. The revised skymap issued the following day reduced these numbers to 21\% for the Zwicky Transient Facility and 19\% for Palomar Gattini-IR. We narrowed 338,646 ZTF transient "alerts" over the first two nights of observations to 15 candidate counterparts. Two candidates, ZTF19aarykkb and ZTF19aarzaod, were particularly compelling given that their location, distance, and age were consistent with the GW event, and their early optical lightcurves were photometrically consistent with that of kilonovae. These two candidates were spectroscopically classified as young core-collapse supernovae. The remaining candidates were ruled-out as supernovae. Palomar Gattini-IR did not identify any viable candidates with multiple detections only after merger time. We demonstrate that even with single-detector GW events localized to thousands of square degrees, systematic kilonova discovery is feasible.

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/1907.12645/full.md

## Figures

13 figures with captions in the complete paper: https://tomesphere.com/paper/1907.12645/full.md

## References

164 references — full list in the complete paper: https://tomesphere.com/paper/1907.12645/full.md

---
Source: https://tomesphere.com/paper/1907.12645