ZTF20aajnksq (AT2020blt): A Fast Optical Transient at z ≈ 2.9 With No Detected Gamma-Ray Burst Counterpart

Abstract

We present ZTF20aajnksq (AT2020blt), a fast-fading ( r=2.4 mag in t=1.3 days) red (g-r≈0.6 mag) and luminous (M1626=-25.9) optical transient at z=2.9 discovered by the Zwicky Transient Facility (ZTF). AT2020blt shares several features in common with afterglows to long-duration gamma-ray bursts (GRBs): (1) an optical light curve well-described by a broken power-law with a break at tj=1 day (observer-frame); (2) a luminous (LX = 1046 erg s-1) X-ray counterpart; and (3) luminous (L = 4 × 1031 erg sec-1 Hz-1 at 10 GHz) radio emission. However, no GRB was detected in the 0.74d between the last ZTF non-detection (r > 20.64) and the first ZTF detection (r = 19.57), with an upper limit on the isotropic-equivalent gamma-ray energy release of Eγ,iso < 7 × 1052 erg. AT2020blt is thus the third afterglow-like transient discovered without a detected GRB counterpart (after PTF11agg and ZTF19abvizsw) and the second (after ZTF19abvizsw) with a redshift measurement. We conclude that the properties of AT2020blt are consistent with a classical (initial Lorentz factor 0 100) on-axis GRB that was missed by high-energy satellites. Furthermore, by estimating the rate of transients with light curves similar to that of AT2020blt in ZTF high-cadence data, we agree with previous results that there is no evidence for an afterglow-like phenomenon that is significantly more common than classical GRBs. We conclude by discussing the status and future of fast-transient searches in wide-field high-cadence optical surveys.