Pinpointing the location of the gamma-ray emitting region in the FSRQ 4C+01.28

Abstract

The FSRQ 4C+01.28 is a bright and highly variable radio and γ-ray emitter. We aim to pinpoint the location of the γ-ray emitting region within its jet in order to derive strong constraints on γ-ray emission models for blazar jets. We use radio and γ-ray data obtained with ALMA, OVRO, SMA and Fermi/LAT to study the cross-correlation between γ-ray and multi-frequency radio light curves. Moreover, we employ VLBA observations at 43 GHz over a period of around nine years to study the parsec-scale jet kinematics. To pinpoint the location of the γ-ray emitting region, we use a model in which outbursts shown in the γ-ray and radio light curves are produced when moving jet components pass through the γ-ray emitting and the radio core regions. We find two bright and compact newly ejected jet components that are likely associated with a high activity period visible in the γ-ray and radio light curves. The kinematic analysis of the VLBA observations leads to a maximum apparent jet speed of βapp=1910 and an upper limit on the viewing angle of φ < 4 deg. We determine the power law indices that are characterizing the jet geometry, brightness temperature distribution, and core shift to be l=0.9740.098, s=-3.310.31, and kr=1.090.17, which are in agreement with a conical jet in equipartition. A cross-correlation analysis shows that the radio light curves follow the γ-ray light curve. We pinpoint the location of the γ-ray emitting region with respect to the jet base to the range of 2.6\,pc≤ dγ≤20\,pc. Our derived observational limits places the location of γ-ray production in 4C+01.28 beyond the expected extent of the broad-line region (BLR) and therefore challenges blazar-emission models that rely on inverse Compton up-scattering of seed photons from the BLR.

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