4.7 Article

Anomalous broad-line region responses to continuum variability in active galactic nuclei - I. Hβ variability

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OXFORD UNIV PRESS
DOI: 10.1093/mnras/stab2443

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accretion, accretion discs; dust, extinction; galaxies: active; galaxies: nuclei; quasars: emission lines

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  1. Science Internship Program (SIP) of the University of California at Santa Cruz

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The study found that anomalous responses of the BLR are very common and likely occur in every object. The anomalies can begin on a timescale only slightly longer than the light-crossing time and last for a duration of the order of the characteristic timescale of variability of the optical continuum. Anomalies are larger when NGC 5548 is in a low state, but otherwise show no correlation with continuum variability.
In the standard active galactic nucleus (AGN) reverberation-mapping model, variations in broad-line region (BLR) fluxes are predicted from optical continuum variability (taken as a proxy for the ionizing continuum) convolved with a response function that depends on the geometry. However, it has long been known that BLR variability can deviate from these predictions. We analyse both extensive long-term H beta and continuum monitoring of NGC 5548 and a large sample of high-quality H beta light curves of other AGNs to investigate the frequency and characteristics of the anomalous responses of the BLit. We find that anomalies are very common and probably occur in every object. Onsets can be on a time-scale only slightly longer than the light-crossing time and durations are of the order of the characteristic time-scale of variability of the optical continuum to several times longer. Anomalies are larger when NGC 5548 is in a low state, but otherwise there is no correlation with continuum variability. There is abundant evidence for the optical continuum of AGNs varying independently of the higher-energy continua and this is sufficient to explain the anomalous responses of the total BLR flux. There are good reasons for believing that the frequent lack of correlation between spectral regions is due to anisotropic and non-axisymmetric emission. Rapid changes in line profiles and velocity-dependent lags are consistent with this. Motion of compact absorbing clouds across the line of sight is another possible cause of anomalies. The prevalence of anomalies should be considered when planning reverberation-mapping campaigns.

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