Time-delay measurement of MgII broad line response for the highly-accreting quasar HE 0413-4031: Implications for the MgII-based radius-luminosity relation

Abstract

We present the monitoring of the AGN continuum and MgII broad line emission for the quasar HE 0413-4031 (z=1.38) based on the six-year monitoring by the South African Large Telescope (SALT). We managed to estimate a time-delay of 302.6+28.7-33.1 days in the rest frame of the source using seven different methods: interpolated cross-correlation function (ICCF), discrete correlation function (DCF), z-transformed DCF, JAVELIN, two estimators of data regularity (Von Neumann, Bartels), and 2 method. This time-delay is below the value expected from the standard radius-luminosity relation. However, based on the monochromatic luminosity of the source and the SED modelling, we interpret this departure as the shortening of the time-delay due to the higher accretion rate of the source, with the inferred Eddington ratio of 0.4. The MgII line luminosity of HE 0413-4031 responds to the continuum variability as L line L cont0.43 0.10, which is consistent with the light-travel distance of the location of MgII emission at R out 1018\, cm. Using the data of 10 other quasars, we confirm the radius-luminosity relation for broad MgII line, which was previously determined for broad Hβ line for lower-redshift sources. In addition, we detect a general departure of higher-accreting quasars from this relation in analogy to Hβ sample. After the accretion-rate correction of the light-travel distance, the MgII-based radius-luminosity relation has a small scatter of only 0.10 dex.