Initial state of the recombining plasma in supernova remnant W 28

Abstract

We investigate an SNR W28 with the Suzaku archive data and report the results of spatial resolved analyses. We carry out spectral analysis using a recombining plasma (RP) model with an element-dependent initial ionization temperature, and obtain the ionization temperatures to be 0.5~keV for Ne, 0.7~keV for Mg, 1.0~keV for Si, 1.2~keV for S, 1.4~keV for Ar, 1.7~keV for Ca, and 0.7~keV for Fe in the RP-initial phase. In addition to northeast regions where RP have been reported, we find that the ionization temperature in the southeast and southwest regions show a similar trend to the central region, in the RP-initial phase. Furthermore, the elapsed time from the RP-initial phase to present is shorter, 300~yr in the central region and longer, 103-104~yr in the outside regions. Our results cannot be explained by simple scenarios of thermal conduction due to molecular clouds or adiabatic cooling (rarefaction), and indicate that more complex mechanism or other scenarios are required. Also, we estimate the ejecta mass 14M, which indicates a SNR derived a massive star.