The obscured active nucleus of NGC 7172 as seen by NuSTAR

Abstract

We analyse the properties of the X-ray emission from Seyfert 2 NGC 7172 which are based on the 32 ks observational data from NuSTAR in 2014. This source showed a constant Compton-thin obscuration NH≈ 8· 1022 cm-2, which is similar to that observed by XMM-Newton, Suzaku, ASCA and BeppoSAX over past 30 years. We revealed the presence of a moderate reflection component with <R>~0.44 and a narrow FeKα line with 67+13-14 eV. The applied numerical models of torus confirmed the Compton-thin type of the Seyfert nucleus and allowed us to obtain an estimate of the torus opening angle t59 and inclination i61. Using the observation data of previous observation, we demonstrate also the long-term variability of intrinsic luminosity Lintr(2-10 keV) almost by order and EW FeKα by factor 4 on a timescale of 12 years, that coincides to the distance of d3.7 pc between central source and reprocessing medium. Such changes of intrinsic luminosity without changes in NH value indicate the variability of a central source. In the same time the spectral analysis results with the presence of the lag between variability of intrinsic luminosity Lintr(2-10 keV) and EW FeKα, as well as a behaviour of intensity IFeKα of the line are in agreement with the scenario, where observed FeKα line is generated in a distant gas-dust torus.