Evidence for variability timescale dependent UV/X-ray delay in Seyfert 1 AGN NGC 7469

Abstract

Using a month-long X-ray lightcurve from RXTE/PCA and 1.5 month long UV continuum lightcurves from IUE spectra in 1220-1970 A, we performed a detailed time-lag study of the Seyfert 1 galaxy NGC 7469. Our cross-correlation analysis confirms previous results showing that the X-rays are delayed relative to the UV continuum at 1315 A by 3.49 0.22 days which is possibly caused by either propagating fluctuation or variable comptonisation. However, if variations slower than 5 days are removed from the X-ray lightcurve, the UV variations then lag behind the X-rays variations by 0.370.14 day, consistent with reprocessing of the X-rays by a surrounding accretion disc. A very similar reverberation delay is observed between Swift/XRT X-ray and Swift/UVOT UVW2, U lightcurves. Continuum lightcurves extracted from the Swift/GRISM spectra show delays with respect to X-rays consistent with reverberation. Separating the UV continuum variations faster and slower than 5 days, the slow variations at 1825 A lag those at 1315 A by 0.290.06 day, while the fast variations are coincident (0.040.12 day). The UV/optical continuum reverberation lag from IUE, Swift and other optical telescopes at different wavelengths are consistent with the relationship: τ λ4/3, predicted for the standard accretion disc theory while the best-fit X-ray delay from RXTE and Swift/XRT shows a negative X-ray offset of 0.38 days from the standard disc delay prediction.