Magnetar Broadband X-ray Spectra Correlated with Magnetic Fields: Suzaku Archive of SGRs and AXPs Combined with NuSTAR, Swift, and RXTE

Abstract

Studies were made of the 1-70 keV persistent spectra of fifteen magnetars as a complete sample observed with Suzaku from 2006 to 2013. Combined with early NuSTAR observations of four hard X-ray emitters, nine objects showed a hard power-law emission dominating at 10 keV with the 15--60 keV flux of 1-11× 10-11 ergs s-1 cm-2. The hard X-ray luminosity L h, relative to that of a soft-thermal surface radiation L s, tends to become higher toward younger and strongly magnetized objects. Updated from the previous study, their hardness ratio, defined as =L h/L s, is correlated with the measured spin-down rate P as =0.62 × (P/10-11\, s\, s-1)0.72, corresponding with positive and negative correlations of the dipole field strength B d ( B d1.41) and the characteristic age τ c ( τ c-0.68), respectively. Among our sample, five transients were observed during X-ray outbursts, and the results are compared with their long-term 1-10 keV flux decays monitored with Swift/XRT and RXTE/PCA. Fading curves of three bright outbursts are approximated by an empirical formula used in the seismology, showing a 10-40 d plateau phase. Transients show the maximum luminosities of L s1035 erg s-1, which is comparable to those of the persistently bright ones, and fade back to 1032 erg s-1. Spectral properties are discussed in a framework of the magnetar hypothesis.