INTEGRAL discovery of a burst with associated radio emission from the magnetar SGR 1935+2154

Abstract

We report on INTEGRAL observations of the soft γ-ray repeater SGR 1935+2154 performed between 2020 April 28 and May 3. Several short bursts with fluence of 10-7-10-6 erg cm-2 were detected by the IBIS instrument in the 20-200 keV range. The burst with the hardest spectrum, discovered and localized in real time by the INTEGRAL Burst Alert System, was spatially and temporally coincident with a short and very bright radio burst detected by the CHIME and STARE2 radio telescopes at 400-800 MHz and 1.4 GHz, respectively. Its lightcurve shows three narrow peaks separated by 29 ms time intervals, superimposed on a broad pulse lasting 0.6 s. The brightest peak had a delay of 6.51.0 ms with respect to the 1.4 GHz radio pulse (that coincides with the second and brightest component seen at lower frequencies). The burst spectrum, an exponentially cut-off power law with photon index =0.7-0.2+0.4 and peak energy Ep=655 keV, is harder than those of the bursts usually observed from this and other magnetars. By the analysis of an expanding dust scattering ring seen in X-rays with the Neil Gehrels Swift Observatory XRT instrument, we derived a distance of 4.4-1.3+2.8 kpc for SGR 1935+2154, independent of its possible association with the supernova remnant G57.2+0.8. At this distance, the burst 20-200 keV fluence of (6.1 0.3)×10-7 erg cm-2 corresponds to an isotropic emitted energy of 1.4×1039 erg. This is the first burst with a radio counterpart observed from a soft γ-ray repeater and it strongly supports models based on magnetars that have been proposed for extragalactic fast radio bursts.