Long-term and multi-wavelength evolution of a changing-look AGN Mrk 1018

Abstract

The physical mechanism for triggering the changing-look phenomenon in active galactic nuclei (AGNs) is still unclear. We explore this issue based on the multi-wavelength spectral and flux variations for a changing-look AGN Mrk~1018 with long-term observations in the X-ray, optical/ultraviolet(UV), and radio bands. Both the optical and the X-ray emission experience rapid decay in changing-look phase during 2010--2015, where a re-flare appears in the optical/UV and X-ray bands. We find a time lag of 20 days of optical/UV behind X-ray variations in type 1.9 phase. The 5 GHz radio flux decreases by 20\% in type 1.9 phase during 2016--2017. We find both X-ray photon index () and the optical-to-X-ray spectral index (αox\,) are anti-correlated with the Eddington scaled 2--10~keV X-ray luminosity (LX/LEdd) in the type 1.9 phase. However, the type 1 phase deviates from these two anti-correlations, which suggests that the change of broad emission lines might be regulated by the evolution of accretion disk (e.g., disappearing of the inner cold disk in the type 1.9 phase).

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