Completion of a Survey and Detailed Study of Double‐peaked Emission Lines in Radio‐loud Active Galactic Nuclei

Abstract

We report the completion of a survey of radio-loud AGNs begun in an earlier paper, aimed finding and studying broad, double-peaked Balmer lines. We present Ha spectra of 13 broad-lined objects (3 with double-peaked Ha profiles). The final sample includes 106 radio-loud AGNs. 20% of the objects have Ha lines with double peaks or twin shoulders and of these, 60% can be fitted quite well with a model attributing the emission to a circular, relativistic, disk. We also compare the Hb and MgII profiles of 4 objects with models of photoionized accretion disks and find them to be in reasonable agreement. Double-peaked emitters stand out on the basis of the following properties: (1) unusually large contribution of starlight to the optical continuum around Ha, (2) unusually large equivalent widths of low-ionization lines ([OI] and [SII]), (3) unusually large [OI]/[OIII] ratios, and (4) Balmer lines on average twice as broad as in other radio-loud AGNs. We evaluate models for the origin of the lines and we find accretion-disk emission to be the most successful one because it can explain the double-peaked line profiles and it also offers an interpretation of the spectroscopic properties of these objects. Aternative suggestions (binary broad-line regions, bipolar outflows, anisotropically illuminated spherical broad-line regions) are unsatisfactory because (a) they fail direct observational tests, (b) they cannot explain the unusual properties of double-peaked emitters self-consistently, or (c) their physical foundations appear to be unsound. We suggest that in double-peaked emitters and accretion- powered LINERs the accretion rate is considerably lower than the Eddington rate with the consequence that the inner accretion disk takes the form of an ion torus and the wind that normally enshrouds the disk proper is absent.Comment: 25 pages, in emulateapj format, to appear in Ap.J. vol 599, Dec 20, 200