Early X-ray and optical observations of the soft gamma-ray repeater SGR 0418+5729

TL;DR

This paper reports early X-ray and optical observations of SGR 0418+5729, revealing its spectral and timing properties, decay behavior, and optical flux limits, contributing to understanding magnetar characteristics.

Contribution

It provides the first detailed timing, spectral, and optical flux measurements of SGR 0418+5729, including constraints on its magnetic field and emission regions.

Findings

X-ray emission faded by a factor of 10 over 160 days

No significant spin period evolution detected

Optical flux limit set at i'>25.1 mag

Abstract

Emission of two short hard X-ray bursts on 2009 June 5 disclosed the existence of a new soft gamma-ray repeater, now catalogued as SGR 0418+5729. After a few days, X-ray pulsations at a period of 9.1 s were discovered in its persistent emission. SGR 0418+5729 was monitored almost since its discovery with the Rossi X-ray Timing Explorer (2-10 keV energy range) and observed many times with Swift (0.2-10 keV). The source persistent X-ray emission faded by a factor 10 in about 160 days, with a steepening in the decay about 19 days after the activation. The X-ray spectrum is well described by a simple absorbed blackbody, with a temperature decreasing in time. A phase-coherent timing solution over the 160 day time span yielded no evidence for any significant evolution of the spin period, implying a 3-sigma upper limit of 1.1E-13 s/s on the period derivative and of 3E+13 G on the surface dipole magnetic field. Phase-resolved spectroscopy provided evidence for a significant variation of the spectrum as a function of the stellar rotation, pointing to the presence of two emitting caps, one of which became hotter during the outburst. Finally, a deep observation of the field of SGR 0418+5729 with the new Gran Telescopio Canarias 10.4-m telescope allowed us to set an upper limit on the source optical flux of i'>25.1 mag, corresponding to an X-ray-to-optical flux ratio exceeding 10000, consistent with the characteristics of other magnetars.