Nuclear obscuration structure in Mrk 417 based on NuSTAR and Swift/BAT data

Abstract

We present the results of X-ray spectral analysis of the Seyfert type 2 galaxy Mrk 417 observed by the NuSTAR (3-60 keV) and the Swift/BAT (14-150) observatories. The NuSTAR data shows a good fit with a baseline model which composed of an absorbed cutoff power-law component and reflected emission from the cold neutral medium. We found that the spectrum is steep = 1.63-0.11+0.10 and obscured by hydrogen column density of NH = 3.22-0.39+0.41 · 1023 cm-2, narrow FeKα emission line has an equivalent width of EW = 115-1+2 eV that suggests this feature is originated in a moderate density of obscurer. In combining NuSTAR data with Swift/BAT spectrum we also applied a more physically motivated approach using complex physical models MYTorus and BNTorus. For the first case the photon index of MYTorus = 1.68-0.09+0.09 and the line-of-sight column density of the absorber NH,l.o.s = 3.36-0.07+0.04 · 1023 cm-2. Applying BNTorus model shows the photon index BNTorus = 1.75-0.09+0.09 and absorption NH,l.o.s = 3.72-0.39+0.49 · 1023 cm-2. Based on the results we get an estimation of gas-dust torus covering factor fc = 0.29-0.34 and an intrinsic X-ray luminosity in 2-10 keV of ≈ 3.16· 1043 erg/s. Further analysis of Mid-Infrared (MIR) observational data, indicates that the covering factor maybe even smaller fc ≈ 0.12. Our results allow us to suggest that obscuring material of Mrk 417 has preferably a ring-like geometry.