Steps toward Determination of the Size and Structure of the Broad-Line Region in Active Galactic Nuclei. IX. Ultraviolet Observations of Fairall 9

An 8 month monitoring campaign on the Seyfert 1 galaxy Fairall 9 has been conducted with the International Ultraviolet Explorer in an attempt to obtain reliable estimates of continuum-continuum and continuum-emission-line delays for a high-luminosity active galactic nucleus (AGN). While the results of this campaign are more ambiguous than those of previous monitoring campaigns on lower luminosity sources, we find general agreement with the earlier results: (1) there is no measurable lag between ultraviolet continuum bands, and (2) the measured emission-line time lags are very short. It is especially notable that the Lyα + N V emission-line lag is about 1 order of magnitude smaller than determined from a previous campaign by Clavel, Wamsteker, & Glass (1989) when Fairall 9 was in a more luminous state. In other well-monitored sources, specifically NGC 5548 and NGC 3783, the highest ionization lines are found to respond to continuum variations more rapidly than the lower ionization lines, which suggests a radially ionization-stratified broad-line region. In this case, the results are less certain, since none of the emission-line lags are very well determined. The best-determined emission line lag is Lyα + N V, for which we find that the centroid of the continuum-emission-line cross-correlation function is τcent ≈ 14-20 days. We measure a lag τcent ≲ 4 days for He II λ1640; this result is consistent with the ionization-stratification pattern seen in lower luminosity sources, but the relatively large uncertainties in the emission-line lags measured here cannot rule out similar lags for Lyα + N V and He II λ1640 at a high level of significance. We are unable to determine a reliable lag for C IV λ1550, but we note that the profiles of the variable parts of Lyα and C IV λ1550 are not the same, which does not support the hypothesis that the strongest variations in these two lines arise in the same region.

Claudia Winge | Gerard A. Kriss | Bradley M. Peterson | Willem Wamsteker | Keith Horne | G. A. Reichert | Simon L. Morris | I. Wanders | Rick Edelson | John P. Huchra | Richard W. Pogge | D. M. Crenshaw | John B. Hutchings | Kirk T. Korista | Julian H. Krolik | D. Maoz | A. V. Filippenko | C. M. Gaskell | Anuradha Koratkar | Ari Laor | Gordon M. MacAlpine | E. L. Rokaki | Maria Santos-Lleo | M. A. J. Snijders | Linda S. Sparke | Ronald E. Stoner | Hagai Netzer | Matthew A. Malkan | J. Clavel | P. M. Rodriguez-Pascual | Danielle Marie Alloin | Roger D. Blandford | D. Maoz | A. Filippenko | J. Huchra | M. Malkan | W. Kollatschny | B. Peterson | R. Pogge | M. Dietrich | B. Wilkes | C. Winge | W. Wamsteker | J. Hutchings | K. Korista | P. Martin | T. Alexander | J. Bregman | J. Krolik | S. Morris | G. Kriss | D. Crenshaw | R. Edelson | W. Zheng | P. Barr | M. Snijders | J. Clavel | K. Sekiguchi | G. Perola | T. Courvoisier | L. Sparke | D. Alloin | J. Shull | G. Stirpe | H. Netzer | A. Laor | K. Horne | T. Carone | H. Dottori | P. G. Martin | W. Zheng | C. Gaskell | M. Dietrich | J. M. Shull | Tal Alexander | P. T. O'Brien | P. Barr | Joel N. Bregman | T. E. Carone | S. Clements | T. J.-L. Courvoisier | M. M. De Robertis | Horacio Alberto Dottori | Wolfram Kollatschny | B. McCollum | Gc Perola | R. L. Ptak | M. C. Recondo‐Gonzalez | J. M. Rodriguez‐Espinoza | K. Sekiguchi | G. M. Stirpe | W.-H. Sun | Stefan Wagner | Belinda Jane Wilkes | A. Koratkar | G. Reichert | R. Ptak | P. Rodríguez-Pascual | R. Stoner | E. Rokaki | I. Wanders | S. Clements | W.-H. Sun | B. McCollum | M. Robertis | P. O'Brien | J. Rodríguez-Espinoza | M. Santos-Lleo | R. Blandford | S. Wagner | G. MacAlpine | M. C. Recondo-González | D. Alloin | B. M. Peterson | L. Sparke | J. Wilkes | T. J.-L. Courvoisier | Stefan Wagner | Keith Horne | Simon L. Morris

[1]  R. Vio,et al.  Ultraviolet variability of the Seyfert 1 galaxy Fairall 9 , 1997 .

[2]  V. Zitelli,et al.  The Galaxy Component and Nuclear Flux Measurements of NGC 5548 from Direct Imaging , 1995 .

[3]  G. Ferland,et al.  Optically thin broad-line clouds in active galactic nuclei , 1995 .

[4]  Ian N. Evans,et al.  Steps toward determination of the size and structure of the broad-line region in active galatic nuclei. 8: an intensive HST, IUE, and ground-based study of NGC 5548 , 1995 .

[5]  Bradley M. Peterson,et al.  COMMENTS ON CROSS-CORRELATION METHODOLOGY IN VARIABILITY STUDIES OF ACTIVE GALACTIC NUCLEI , 1994 .

[6]  H. R. Miller,et al.  Steps toward determination of the size and structure of the broad-line region in active galactic nuclei. 5: Variability of the ultraviolet continuum and emission lines of NGC 3783 , 1994 .

[7]  L. Ho,et al.  Steps toward determination of the size and structure of the broad-line region in active nuclei. 7: Variability of the optical spectrum of NGC 5548 over years , 1994 .

[8]  M. Longair,et al.  Frontiers of Space And Ground-Based Astronomy , 1994 .

[9]  B. Peterson,et al.  Reverberation mapping of the broad-line region in active galactic nuclei , 1994 .

[10]  E. al.,et al.  Steps toward determination of the size and structure of the broad-line region in active galactic nuclei. 6: Variability of NGC 3783 from ground-based data , 1993, astro-ph/9311002.

[11]  Paul S. Smith,et al.  Steps toward determination of the size and structure of the broad-line region in active galactic nuclei. IV - Intensity variations of the optical emission lines of NGC 5548 , 1993 .

[12]  Bradley M. Peterson,et al.  REVERBERATION MAPPING OF ACTIVE GALACTIC NUCLEI , 1993 .

[13]  Paul S. Smith,et al.  Variations of the ultraviolet Fe II and Balmer continuum emission in the Seyfert galaxy NGC 5548 , 1993 .

[14]  W. Kollatschny,et al.  Steps toward Determination of the Size and Structure of the Broad-Line Region in Active Galactic Nuclei. XV. Long-Term Optical Monitoring of NGC 5548 , 1992, astro-ph/9808236.

[15]  J. Neill,et al.  Weighted slit extraction of low-dispersion IUE spectral data , 1991 .

[16]  Bradley M. Peterson,et al.  Steps toward determination of the size and structure of the broad-line region in active galactic nuclei. II - An intensive study of NGC 5548 at optical wavelengths , 1991 .

[17]  Wei Zheng,et al.  Steps toward determination of the size and structure of the broad-line region in active galactic nuclei. I, an 8 month campaign of monitoring NGC 5548 with IUE , 1991 .

[18]  W. Duschl,et al.  Variability of Active Galaxies , 1991 .

[19]  Bradley M. Peterson Ground-based studies of emission-line variability: Recent results for NGC 5548 and future plans , 1991 .

[20]  C. Gaskell,et al.  Emission-line variability of Fairall 9 - Determination of the size of the broad-line region and the direction of gas motion , 1989 .

[21]  Willem Wamsteker,et al.  Hot dust on the outskirts of the broad-line region in Fairall 9 , 1989 .

[22]  R Edelson,et al.  The Discrete Correlation Function: a New Method for Analyzing Unevenly Sampled Variability Data , 1988 .

[23]  B. Peterson,et al.  The Accuracy of Cross-Correlation Estimates of Quasar Emission-Line Region Sizes , 1987 .

[24]  A. Harris,et al.  How to Use IUE Data , 1987 .

[25]  C. M. Gaskell,et al.  Line variations in quasars and Seyfert galaxies , 1986 .

[26]  Christopher F. McKee,et al.  Reverberation mapping of the emission line regions of Seyfert galaxies and quasars. , 1982 .