Unification Model of Active Galactic Nuclei by Photoionization Equilibrium Calculation Based on Radiative Hydrodynamic Simulations

Abstract

To investigate the origin of the dependence of the covering factor on the Eddington ratio suggested by X-ray observations, we examined the angular distribution of HI and HII based on two-dimensional radiative hydrodynamic simulations. To calculate the Compton-thin covering factor C22 and Compton-thick covering factor C24 of HI alone, we performed one-dimensional photoionization equilibrium calculations with the XSTAR code based on radiative hydrodynamic simulations. The results obtained are as follows. (1) The Compton-thin covering factor C22 of HI and HII is independent of the Eddington ratio and is approximately 70\%, while C22 of HI alone is also independent of the Eddington ratio and is approximately 30\%. (2) The Compton-thick covering factor C24 of HI has the same value as C22 of HI. (3) Our C24 is consistent with that obtained from X-ray observations. (4) Our C22 agrees with that obtained from X-ray observations in a high Eddington ratio, while our C22 is smaller than that from X-ray observations in a low Eddington ratio. (5) To explain the difference between C22 obtained from theoretical calculations and that inferred from X-ray observations, a Compton-thin gas is required in regions extending at least 10~pc beyond the current computational regions.