EP251023a: A fast X-ray transient featuring a magnetar-powered optical internal plateau followed by a steep decay

Abstract

EP251023a is an extragalactic fast X-ray transient (eFXT) detected solely by EP without a gamma-ray counterpart. The prompt emission consists of a main emission with a duration T90=29219 s, followed by a long-lasting tail emission that persists until the observation ends at T0+1571 s. With the upper limit of Konus--Wind, we derived a conservative upper limit on the isotropic gamma-ray energy Eγ,iso of 5.7 × 1052 erg for the main emission phase. A redshift of z = 2.2320.001 is identified from strong absorption features in the Keck spectrum, which also indicate a relatively low host-galaxy HI column density. Based on the broadband spectral energy distribution, the late-time light curves show an achromatic plateau, followed by an extremely steep decay with a slope of 3.99 after a break at about 49 ks, which is consistent with a rapidly spinning millisecond magnetar engine. Under the isotropic wind scenario, we obtain the initial period P0<2.27~ms and the magnetic field strength Bp<8.33×1014~G for the magnetar; whereas considering a jet collimation with a typical opening angle of 0.1 rad relaxes these constraints to P0<32.15~ms and Bp<1.18×1016~G. Together with GRB\,070707, EP251023a may represent a rare class of optical magnetar-powered internal plateaus with little external-shock contamination, unlike previous examples detected primarily in X-rays. Future discoveries of similar events will help clarify the relationship between magnetar-powered internal emission observed in the optical band and that detected only in X-rays.