Book contents
- Frontmatter
- Contents
- Index of Participants
- Preface
- I Evidence and Implications of Anisotropy in AGN
- Evidence for Anisotropy and Unification
- Any Evidence against Unified Schemes?
- Spectropolarimetry of Cygnus A
- Spectropolarimetery of the Ultraluminous Infrared Galaxy IRAS 110548–1131
- Are there Dusty Tori in Seyfert 2 Galaxies?
- Imaging Spectrophotometry of Extended-Emission Seyfert Galaxies
- Spectroscopy of the Extended Emission Line Regions in NGC 4388
- Evidence and Implications of Anisotropy in Seyfert Galaxies
- Collimated Radiation in NGC 4151
- A Dust Ring around the Nucleus of NGC 4151
- Evolution of Narrow Line Clouds
- Star Formation in NGC 5953
- Stellar Activity in the Seyfert Nucleus of NGC 1808
- Direct Evidence for Anisotropy: Radio Maps and their Relation to Optical Morphology
- The Radio-Optical Connection in AGN
- Knots in Extragalactic Radio Jets
- Radio Emission and the Nature of Compact Objects in AGN
- The Radio Properties of Hidden Seyfert 1's: Implications for Unified Models
- Anisotropic Optical Continuum Emission in Radio Quasars
- The UV Component in Distant Radio Galaxies
- A Connection between BL Lacertæ Objects and Flat-Spectrum Radio Quasars?
- The Difference between BL Lacs and QSOs
- The Evolutionary Unified Scheme and the θ-z Plane
- II Luminosity Functions and Continuum Energy Distributions
- III The Broad Line Region: Variability and Structure
- IV X-rays and Accretion Disks
- V Beams, Jets and Blazars
- VI Concluding Talk
A Connection between BL Lacertæ Objects and Flat-Spectrum Radio Quasars?
from I - Evidence and Implications of Anisotropy in AGN
Published online by Cambridge University Press: 04 August 2010
- Frontmatter
- Contents
- Index of Participants
- Preface
- I Evidence and Implications of Anisotropy in AGN
- Evidence for Anisotropy and Unification
- Any Evidence against Unified Schemes?
- Spectropolarimetry of Cygnus A
- Spectropolarimetery of the Ultraluminous Infrared Galaxy IRAS 110548–1131
- Are there Dusty Tori in Seyfert 2 Galaxies?
- Imaging Spectrophotometry of Extended-Emission Seyfert Galaxies
- Spectroscopy of the Extended Emission Line Regions in NGC 4388
- Evidence and Implications of Anisotropy in Seyfert Galaxies
- Collimated Radiation in NGC 4151
- A Dust Ring around the Nucleus of NGC 4151
- Evolution of Narrow Line Clouds
- Star Formation in NGC 5953
- Stellar Activity in the Seyfert Nucleus of NGC 1808
- Direct Evidence for Anisotropy: Radio Maps and their Relation to Optical Morphology
- The Radio-Optical Connection in AGN
- Knots in Extragalactic Radio Jets
- Radio Emission and the Nature of Compact Objects in AGN
- The Radio Properties of Hidden Seyfert 1's: Implications for Unified Models
- Anisotropic Optical Continuum Emission in Radio Quasars
- The UV Component in Distant Radio Galaxies
- A Connection between BL Lacertæ Objects and Flat-Spectrum Radio Quasars?
- The Difference between BL Lacs and QSOs
- The Evolutionary Unified Scheme and the θ-z Plane
- II Luminosity Functions and Continuum Energy Distributions
- III The Broad Line Region: Variability and Structure
- IV X-rays and Accretion Disks
- V Beams, Jets and Blazars
- VI Concluding Talk
Summary
Abstract
The properties of two complete samples of flat-spectrum radio quasars and radio-selected BL Lacs are analysed to look for any relationship between the two classes. It is shown that BL Lacs are not quasars with emission lines swamped by an enhanced optical continuum but their line luminosities are intrinsically weak. Moreover, an evolutionary connection between the two classes does not seem to be supported by the present data, while micro-lensing of quasars by stars in foreground galaxies can be ruled out as an explanation for the BL Lac phenomenon. BL Lacs and flat-spectrum radio quasars probably represent separate instances of relativistic beaming in low- and high-luminosity radio galaxies respectively.
Introduction
BL Lacertae objects are special types of active galactic nuclei, characterized by rapid variability, relatively high optical polarization, flat radio spectrum, radio coredominance, superluminal motion, and weak or absent emission lines. Flat-spectrum radio quasars (FSRQs) are quasars with spectral index α ≤ 0.5 (Fv ∝ v−α) at a few GHz, in many ways similar to BL Lacs (members of the two classes are often grouped together under the blazar category). The most striking difference between BL Lacs and FSRQs is the presence of strong emission lines in the latter objects. Although there are undoubtedly some borderline objects in which emission lines appear when the continuum is in a low state, a rest-frame equivalent width of 5 Å seems to separate quite well the two classes (see discussion in Stickel et al. 1991).
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- Information
- The Nature of Compact Objects in Active Galactic NucleiProceedings of the 33rd Herstmonceux Conference, held in Cambridge, July 6-22, 1992, pp. 90 - 93Publisher: Cambridge University PressPrint publication year: 1994