Constraints on the location of γ-ray emitting region for a sample of blazars with radio core-shift measurements

Abstract

We model simultaneous or quasi-simultaneous multi-band spectral energy distributions (SEDs) for a sample of 25 blazars that have radio core-shift measurements, where a one-zone leptonic model and Markov chain Monte Carlo technique are adopted. In the SED fitting for 23 low-synchrotron-peaked (LSP) blazars, the seed photons from broad line region (BLR) and molecular torus are considered respectively in the external Compton process. We find that the SED fitting with the seed photons from the torus are better than those utilizing BLR photons, which suggests that the γ-ray emitting region may be located outside the BLR. Assuming the magnetic field strength in the γ-ray emitting region as constrained from the SED fitting follows the magnetic field distribution as derived from the radio core-shift measurements (i.e., B(R) B 1 pc(R/ 1pc)-1, R is the distance from the central engine and B 1 pc is the magnetic field strength at 1 pc), we further calculate the location of the γ-ray emitting region, Rγ, for these blazars. We find that Rγ2×104R S10 R BLR (R S is the Schwarzschild radius and R BLR is the BLR size), where R BLR is estimated from the broad line luminosities using the empirical correlations obtained using the reverberation mapping methods.