Low Redshift BAL QSOs in the Eigenvector 1 Context

Sulentic J. W.; Dultzin-Hacyan D.; Marziani P.; Bongardo C.; Braito V.; Calvani M.; Zamanov R.

Vol. 42 No. 1 (2006), Research articles

Vol. 42 No. 1 (2006)

Research articles

Low Redshift BAL QSOs in the Eigenvector 1 Context

Published 2006-04-01

Sulentic J. W.⁺⁻
Dultzin-Hacyan D.⁺⁻
Marziani P.⁺⁻
Bongardo C.⁺⁻
Braito V.⁺⁻
Calvani M.⁺⁻
Zamanov R.⁺⁻

Sulentic J. W.

Department of Physics and Astronomy, University of Alabama, USA

Dultzin-Hacyan D.

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Marziani P.

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https://orcid.org/0000-0002-6058-4912

Bongardo C.

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Braito V.

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https://orcid.org/0000-0002-2629-4989

Calvani M.

-

Zamanov R.

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Keywords

Galaxies: Active
Quasars: Absorption Lines
Quasars: Emission Lines
Astrophysics

How to Cite

Low Redshift BAL QSOs in the Eigenvector 1 Context. (2006). Revista Mexicana De Astronomía Y Astrofísica, 42(1), 23-39. https://astronomia.unam.mx/journals/rmxaa/article/view/2006rmxaa..42...23s

Abstract

We attempt to characterize the geometry of Broad Absorption Line (BAL) QSOs by studying a low redshift sample of 12 sources. We find that the majority of these sources are Population A quasars as defined in Sulentic et al. (2000a, broad HbetaFWHM ≤ 4000 km s(-1) ). A possible correlation between terminal velocity and absolute V magnitude suggests that the bolometric luminosity to black hole mass ratio L_{bol}/M_{BH} is a governing factor with classical BAL sources showing the highest values. CIVlambda1549 emission in classical BAL sources shows a profile blueshift that supports a disk wind/outflow scenario with a half opening angle of ≤sssim 50(o) . Observation of ``secondary'' mini-BAL features in the CIVlambda1549 emission profile motivates us to model BALs with an additional component that may be involved with the BLR outflow and co-axial with the accretion disk.

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Low Redshift BAL QSOs in the Eigenvector 1 Context

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