Spectral variability of the 3C 390.3 nucleus for more than twenty years. I. Variability of the broad and narrow emission-line fluxes

Abstract

We summarize results of the analysis of the optical variability of the continuum and emission-line fluxes in the 3C390.3 nucleus during 1992-2014. The [OIII]5007 flux increases monotonically by ≈30 per cent in 2003-2014. The narrow Balmer lines show similar monotonic increase, while the variability patterns of the [OI]6300 narrow line are completely different from that of [OIII]. The reverberation lags are found to be 88.68.4, 16115, and 11314d for the Hβ, Hα, and Hγ broad emission-lines, respectively. The reverberation mass of the central black hole equals to (1.870.26)×109\,M and (2.810.38)×109\,M, for the Hβ and Hα lines and assuming a scaling factor that converts the virial product to a mass to be f=5.5. A difference between both masses can point to a difference between kinematics of the Hα and Hβ emission regions. We show that the reverberation mapping can only be applied to the entire period of observations of the 3C390.3 nucleus after removing a long-term trend. This trend has been expressed by a slowly varying scalefactor c(t) in the power-law relationship between the line and continuum fluxes: Fline c(t)\,Fconta. We find the power-law index a equals to 0.77 and 0.54 for the Hβ and Hα lines, respectively. The observed relationship between the Balmer decrement and the optical continuum flux is as follows: F(Hα)/F(Hβ) Fcont-0.20 and F(Hβ)/F(Hγ) Fcont-0.18. The 3C390.3 nucleus is an "outsider" in the relationship between optical luminosity and black hole mass. Its Eddington ratio is Ebol/EEdd = 0.0037.