Multi-wavelength spectral modelling of the candidate neutrino blazar PKS 0735+178

Abstract

The BL Lac object PKS 0735+178 was in its historic γ-ray brightness state during December 2021. This period also coincides with the detection of a neutrino event IC211208A, which was localized close to the vicinity of PKS 0735+178. We carried out detailed γ-ray timing and spectral analysis of the source in three epochs (a) quiescent state (E1), (b) moderate activity state (E2) and (c) high activity state (E3) coincident with the epoch of neutrino detection. During the epoch of neutrino detection (E3), we found the largest variability amplitude of 95%. The γ-ray spectra corresponding to these three epochs are well fit by the power law model and the source is found to show spectral variations with a softer when brighter trend. In the epoch E3, we found the shortest flux doubling/halving time of 5.75 hrs. Even though the spectral energy distribution in the moderate activity state and in the high activity state could be modeled by the one-zone leptonic emission model, the spectral energy distribution in the quiescent state required an additional component of radiation over and above the leptonic component. Here we show that a photo-meson process was needed to explain the excess γ-ray emission in the hundreds of GeV which could not be accounted for by the synchrotron self-Compton process.