A Method for Locating High Energy Dissipation Region in Blazar

Abstract

The production site of gamma-rays in blazar jet is an unresolved problem. We present a method to locate gamma-ray emission region in the framework of one-zone emission model. From measurements of core-shift effect, the relation between the magnetic field strengths (B') in the radio cores of jet and the distances (R) of these radio cores from central supermassive black hole (SMBH) can be inferred. Therefore once the magnetic field strength in gamma-ray emission region (B' diss) is obtained, one can use the relation of B'-R to derive the distance (R diss) of gamma-ray emission region from SMBH. Here we evaluate the lower limit of B' diss by using the criteria that the optical variability timescale t var should be longer or equal to the synchrotron radiation cooling timescale of the electrons that emit optical photons. We test the method with the observations of PSK 1510-089 and BL Lacertae, and derive R diss<0.15δ D1/3(1+A)2/3\ pc for PSK 1510-089 with t var a few hours, and R diss<0.003δ D1/3(1+A)2/3\ pc for BL Lacertae with t var a few minutes. Here δ D is the Doppler factor and A is the Compton dominance (i.e., the ratio of the Compton to the synchrotron peak luminosities).