Evidence of Heavy Obscuration in the Low-Luminosity AGN NGC 4941

Abstract

We present the results obtained from timing and spectral studies of the highly obscured low luminosity active galactic nucleus NGC~4941 using data obtained from the Nuclear Spectroscopic Telescope Array and the Neil Gehrels Swift Observatories. We find similar variability in 3-10~keV and 10-60~keV energy ranges with fractional rms variability of 14\%. We investigate broad-band spectral properties of the source in 3-150 keV range, using data from NuSTAR and Swift/BAT, with phenomenological slab model and physically motivated mytorus model. From the spectral analysis, we find heavy obscuration with the global average column density of the obscured material as 3.09+1.68-1.01 × 1024 cm-2. Evidence of a strong reflection component is observed in the spectrum. We detect a strong iron line with an equivalent width of 1~keV. From the slab model, we obtain the exponential cutoff energy as 177+92-16~keV. From this, we estimate the Compton cloud properties with the hot electron temperature kT e = 59+31-5~keV and the optical depth τ = 2.7+0.2-1.6.