WINTER on S250206dm: A near-infrared search for an electromagnetic counterpart to a gravitational-wave event

Abstract

We present near-infrared follow-up observations of the International Gravitational Wave Network (IGWN) event S250206dm with the Wide-Field Infrared Transient Explorer (WINTER). WINTER is a near-infrared time-domain survey designed for electromagnetic follow-up of gravitational-wave sources localized to ≤300 deg2. The instrument's wide field of view (1.2 deg2), dedicated 1-m robotic telescope, and near-infrared coverage (0.9-1.7 microns) are optimized for searching for kilonovae, which are expected to exhibit a relatively long-lived near-infrared component. S250206dm is the only neutron star merger in the fourth observing run (to date) localized to ≤300 deg2 with a False Alarm Rate below one per year. It has a 55\% probability of being a neutron star-black hole (NSBH) merger and a 37\% probability of being a binary neutron star (BNS) merger, with a 50\% credible region spanning 38 deg2, an estimated distance of 373 Mpc, and an overall false alarm rate of approximately one in 25 years. WINTER covered 43\% of the probability area at least once and 35\% at least three times. Through automated and human candidate vetting, all transient candidates found in WINTER coverage were rejected as kilonova candidates. Unsurprisingly, given the large estimated distance of 373 Mpc, the WINTER upper limits do not constrain kilonova models. This study highlights the promise of systematic infrared searches and the need for future wider and deeper infrared surveys.

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