Book contents
- Frontmatter
- Contents
- Index of Participants
- Preface
- I Evidence and Implications of Anisotropy in AGN
- II Luminosity Functions and Continuum Energy Distributions
- III The Broad Line Region: Variability and Structure
- IV X-rays and Accretion Disks
- X-ray Variability in AGN
- Thermal Reprocessing of X-rays in NGC 5548
- New Ginga Observation and Model of NGC 6814 Periodicity
- Power Spectrum Fits to EXOSAT Long Looks
- Dramatic X-ray Spectral Variability of Mkn 841
- Thermal and Non-Thermal Emission from Accretion Disks
- Ultra-Soft X-ray Emission in AGN
- Highly Ionized Gas in Seyfert Galaxies
- EUV Observations of Seyfert 1 Galaxies and Quasars
- 0.1–;20 keV Spectra of 3C 273 and E1821+643
- Iron Lines from Ionized Discs
- Reflection Effects in Realistic Discs
- X-Ray Polarization Properties in the Two-Phase Model for AGN
- X-Ray Reprocessing and UV Continuum in NGC 4151
- Dense Clouds Near the Center of Active Galactic Nuclei
- Accretion Discs in AGN Context: Hints Toward Non-Standard Discs?
- Accretion Disk Instabilities
- Compton-Heated Winds from Accretion Disks
- Determination of a Transonic Solution in a Stationary Accretion Disc
- Black Holes and Accretion Disks
- Testing the “Disc X-ray Reprocessing” in UV-Optical Continuum and Line Emission in NGC 5548
- Accretion Discs in Realistic Potentials
- Test of the Accretion Disc Model and Orientation Indicator
- Orientation Effects in QSO Spectra
- The Luminosity-Colour Distribution of Quasar Accretion Disks
- V Beams, Jets and Blazars
- VI Concluding Talk
Orientation Effects in QSO Spectra
from IV - X-rays and Accretion Disks
Published online by Cambridge University Press: 04 August 2010
- Frontmatter
- Contents
- Index of Participants
- Preface
- I Evidence and Implications of Anisotropy in AGN
- II Luminosity Functions and Continuum Energy Distributions
- III The Broad Line Region: Variability and Structure
- IV X-rays and Accretion Disks
- X-ray Variability in AGN
- Thermal Reprocessing of X-rays in NGC 5548
- New Ginga Observation and Model of NGC 6814 Periodicity
- Power Spectrum Fits to EXOSAT Long Looks
- Dramatic X-ray Spectral Variability of Mkn 841
- Thermal and Non-Thermal Emission from Accretion Disks
- Ultra-Soft X-ray Emission in AGN
- Highly Ionized Gas in Seyfert Galaxies
- EUV Observations of Seyfert 1 Galaxies and Quasars
- 0.1–;20 keV Spectra of 3C 273 and E1821+643
- Iron Lines from Ionized Discs
- Reflection Effects in Realistic Discs
- X-Ray Polarization Properties in the Two-Phase Model for AGN
- X-Ray Reprocessing and UV Continuum in NGC 4151
- Dense Clouds Near the Center of Active Galactic Nuclei
- Accretion Discs in AGN Context: Hints Toward Non-Standard Discs?
- Accretion Disk Instabilities
- Compton-Heated Winds from Accretion Disks
- Determination of a Transonic Solution in a Stationary Accretion Disc
- Black Holes and Accretion Disks
- Testing the “Disc X-ray Reprocessing” in UV-Optical Continuum and Line Emission in NGC 5548
- Accretion Discs in Realistic Potentials
- Test of the Accretion Disc Model and Orientation Indicator
- Orientation Effects in QSO Spectra
- The Luminosity-Colour Distribution of Quasar Accretion Disks
- V Beams, Jets and Blazars
- VI Concluding Talk
Summary
Abstract
Virtually all accretion disk models predict that QSOs observed from nearly edge-on should show extremely high equivalent-width emission lines. These are not seen. Either accretion disks must be significantly non-planar, or most edge-on QSOs must be concealed by an obscuring torus.
Model
If the UV-optical continuum emission of QSOs comes from an accretion disk, it will be emitted anisotropically. If in addition the line radiation is either isotropic, or anisotropic in a different way from the continuum radiation, then identical QSOs observed from different orientations will show different emission-line equivalent widths.
I assume that all QSOs have the same intrinsic line-to-continuum flux ratio, and that the line radiation is isotropic. Any magnitude-limited sample is strongly biased towards face-on QSOs, and this bias is taken into account using luminosity function information. A wide variety of both thick and thin disk models have been used.
Results
A typical predicted equivalent-width distribution is compared with an observed distribution in the figure. Both are taken from. Two discrepancies are evident. Firstly, the observed distribution has a broader, smoother peak than the prediction. This can easily be explained if there is an intrinsic dispersion in QSO equivalent-widths. Secondly, the model has a tail of very high equivalent-width QSOs not seen in the observations. This tail is significant at the 99% confidence level, for most accretion disk models, and for Lyman-α, C III] and Mg II as well as C IV.
- Type
- Chapter
- Information
- The Nature of Compact Objects in Active Galactic NucleiProceedings of the 33rd Herstmonceux Conference, held in Cambridge, July 6-22, 1992, pp. 354 - 355Publisher: Cambridge University PressPrint publication year: 1994