On the Nature of Soft X-Ray Weak Quasi-stellar Objects

Recent studies of quasi-stellar objects (QSOs) with ROSAT suggest the existence of a significant population of soft X-ray weak QSOs (SXW QSOs) where the soft X-ray flux is ~10-30 times smaller than in typical QSOs. Why are these QSOs soft X-ray weak, and what is their relationship to broad absorption line QSOs (BAL QSOs) and X-ray warm absorber QSOs? As a first step in a systematic study of these objects, we establish a well-defined sample of SXW QSOs that includes all ?ox ? -2 QSOs from the Boroson & Green sample of 87 Bright Quasar Survey QSOs. SXW?QSOs comprise ?11% of this optically selected QSO sample, and we find soft X-ray weakness in both radio-quiet and radio-loud QSOs. From an analysis of C IV absorption in the 55 Boroson & Green QSOs with available C IV data, we find a remarkably strong correlation between ?ox and the C IV absorption equivalent width. This correlation suggests that absorption is the primary cause of soft X-ray weakness in QSOs, and it reveals a continuum of absorption properties connecting unabsorbed QSOs, X-ray warm absorber QSOs, SXW QSOs, and BAL QSOs. Many of our SXW QSOs have ultraviolet absorption that is intermediate in strength between that of X-ray warm absorber QSOs and that of BAL QSOs, and their X-ray absorption is also likely to be of intermediate strength. From a practical point of view, our correlation demonstrates that selection by soft X-ray weakness is an effective (80% successful) and observationally inexpensive way to find low-redshift QSOs with strong and interesting ultraviolet absorption. We have also identified several notable differences between the optical emission-line properties of SXW QSOs and those of the other Boroson & Green QSOs. SXW?QSOs show systematically low [O III] luminosities and equivalent widths as well as distinctive H? line profiles. They tend to lie toward the weak [O III] end of Boroson & Green eigenvector 1, as do many low-ionization BAL QSOs. Unabsorbed Seyfert galaxies and QSOs with similar values of eigenvector 1 have been suggested to have extreme values of a primary physical parameter, perhaps mass accretion rate relative to the Eddington rate (/Edd). If these suggestions are correct, it is likely that SXW QSOs also tend to have generally high values of /Edd. Finally, we present and discuss correlations between ?ox and other QSO observables after removal of the SXW QSOs.

[1]  Paul S. Smith,et al.  Long-term optical variability properties of the Palomar–Green quasars , 1999 .

[2]  J. Hartigan,et al.  The Dip Test of Unimodality , 1985 .

[3]  M. Matsuoka,et al.  How Saturated Are Absorption Lines in the Broad Absorption Line Quasar PG 1411+442? , 1999, astro-ph/9905054.

[4]  Roger D. Blandford,et al.  On the fate of gas accreting at a low rate on to a black hole , 1998, astro-ph/9809083.

[5]  R. Goodrich On the Fraction of Broad Absorption Line Quasi-stellar Objects , 1997 .

[6]  Maarten Schmidt,et al.  Continuum energy distributions of quasars in the Palomar-Green Survey , 1987 .

[7]  T. Boroson,et al.  The Emission-Line Properties of Low-Redshift Quasi-stellar Objects , 1992 .

[8]  Buell T. Jannuzi,et al.  The Ultraviolet Properties of the Narrow-Line Quasar I Zw 1 , 1997, astro-ph/9706264.

[9]  C. Norman,et al.  Stellar Contrails in Quasi-stellar Objects: The Origin of Broad Absorption Lines , 1995 .

[10]  N. Brandt,et al.  X-RAY AND OPTICAL CONTINUA OF ACTIVE GALACTIC NUCLEI WITH EXTREME FE II EMISSION , 1997 .

[11]  H. Falcke,et al.  EVN + MERLIN Observations of Radio-intermediate Quasars: Evidence for Boosted Radio-weak Quasars , 1996, astro-ph/9610049.

[12]  P. R. Bevington,et al.  Data Reduction and Error Analysis for the Physical Sciences , 1969 .

[13]  S. Molendi,et al.  The ROSAT-PSPC Spectrum of Bright Low-z Quasars , 1996 .

[14]  James Liebert,et al.  X-ray studies of quasars with the Einstein observatory , 1979 .

[15]  Felix J. Lockman,et al.  The Hubble Space Telescope Quasar Absorption Line Key Project. 10: Galactic H I 21 centimeter emission toward 143 quasars and active Galactic nuclei , 1995 .

[16]  W. N. Brandt,et al.  ROSAT monitoring of persistent giant and rapid variability in the narrow-line Seyfert 1 galaxy IRAS 13224-3809 , 1997, astro-ph/9703114.

[17]  T. Boroson,et al.  Combined Ultraviolet and Optical Spectra of 48 Low-Redshift QSOs and the Relation of the Continuum and Emission-Line Properties , 1996 .

[18]  J. Dunlop,et al.  The radio properties of radio-quiet quasars , 1997, astro-ph/9802148.

[19]  S. Mathur,et al.  The ROSAT spectrum of 3C 351 - A warm absorber in an X-ray-'quiet' quasar? , 1993 .

[20]  Richard F. Green,et al.  Quasar evolution derived from the Palomar bright quasar survey and other complete quasar surveys. , 1983 .

[21]  W. Sargent,et al.  Absolute spectrophotometry of 68 Seyfert galaxy nuclei. , 1978 .

[22]  Stephen P. Maran,et al.  Resolving the Intrinsic C IV Absorption in the Seyfert 1 Galaxy NGC 3516 , 1997 .

[23]  Belinda J. Wilkes,et al.  Accurate galactic N(H) values towards quasars and AGN , 1989 .

[24]  J. Michael Shull,et al.  The Evolution of Galaxies and Their Environment , 1993 .

[25]  Evidence of Absorption Due to Highly Ionized Gas in the Radio-quiet Quasar PG 1114+445 , 1997, astro-ph/9708034.

[26]  The soft x-ray properties of a complete sample of optically selected quasars. 1: First results , 1994, astro-ph/9609164.

[27]  S. Mathur,et al.  Discovery of Associated Absorption Lines in an X-Ray Warm Absorber:Hubble Space Telescope Observations of PG 1114+445 , 1998, astro-ph/9803341.

[28]  J. Krolik Active Galactic Nuclei , 1998 .

[29]  The Hubble Space Telescope Quasar Absorption Line Key Project. XIII. A Census of Absorption-Line Systems at Low Redshift , 1998, astro-ph/9805148.

[30]  J. Blades,et al.  Extended LY alpha -absorbing Halos around Nearby Galaxies , 1996 .

[31]  George H. Rieke,et al.  Low-luminosity and obscured seyfert nuclei in nearby galaxies , 1995 .

[32]  W. Wamsteker,et al.  Ionized ultraviolet and soft X-ray absorption in the low-redshift active galactic nucleus PG 1126−041 , 1999, astro-ph/9903428.

[33]  G. Berriman,et al.  An Optical Polarization Survey of the Palomar-Green Bright Quasar Sample , 1990 .

[34]  George F. Hartig,et al.  The Hubble Space Telescope quasar absorption line key project. I - First observational results, including Lyman-alpha and Lyman-limit systems , 1993 .

[35]  M. Elvis,et al.  X-ray and UV observations of two radio-bright quasars , 1984 .

[36]  Paul S. Smith,et al.  Hubble Space Telescope and Ground-based Observations of I Zw 1 and Mrk 486 and the Variability of Polarization in Radio-quiet Active Galactic Nuclei , 1997 .

[37]  K. Lanzetta,et al.  EVOLUTION OF THE GASEOUS CONTENT OF THE UNIVERSE , 1993 .

[38]  T. Boroson,et al.  The optical properties of IR-selected and Mg II broad absorption line quasars , 1992 .

[39]  P. I. Nelson,et al.  Statistical methods for astronomical data with upper limits. II - Correlation and regression , 1986 .

[40]  Frederic H. Chaffee,et al.  The Large Bright Quasar Survey.VI.Quasar Catalog and Survey Parameters , 1995 .

[41]  M. Elvis,et al.  The Equilibrium Photoionized Absorber in 3C 351 , 1998, astro-ph/9809114.

[42]  E. Tolstoy,et al.  The Absence of Diffuse Gas around the Dwarf Spheroidal Galaxy Leo I , 1996, astro-ph/9608189.

[43]  Edward M. Murphy,et al.  Galactic H i Column Densities toward Quasars and Active Galactic Nuclei , 1996 .

[44]  H. Tananbaum,et al.  X-Ray properties of optically selected QSOs , 1986 .

[45]  K. Nandra,et al.  Evidence for Relativistic Outflows in Narrow-Line Seyfert 1 Galaxies , 1997, astro-ph/9708112.

[46]  M. Malkan,et al.  PG 1411 + 442 - The nearest broad absorption line quasar , 1987 .

[47]  P. Green,et al.  Broad Absorption Line Quasars Observed by the ROSAT PSPC , 1995, astro-ph/9512032.

[48]  K. S. Anderson The absorption-line spectrum of NGC 4151. , 1974 .

[49]  D. F. Gray,et al.  The Observation and Analysis of Stellar Photospheres , 2021 .

[50]  A. Kinney,et al.  An Ultraviolet Atlas of Quasar and Blazar Spectra (Kinney+, 1991) , 1991 .

[51]  D. Weedman Activity in Galaxies and Related Phenomena: IAU Symposium 194 , 1999 .

[52]  S. Rawlings,et al.  The radio and optical properties of the z<0.5 BQS quasars , 1993 .

[53]  R. Antonucci,et al.  The Spectropolarimetric Test of the Quasar Emission Mechanism , 1996 .

[54]  Stephen P. Maran,et al.  Intrinsic Absorption Lines in Seyfert 1 Galaxies. I. Ultraviolet Spectra from the Hubble Space Telescope , 1998, astro-ph/9812265.

[55]  J. Baldwin,et al.  Do the Broad Emission Line Clouds See the Same Continuum That We See? , 1997, astro-ph/9704262.

[56]  W. Brandt,et al.  Exploratory ASCA Observations of Broad Absorption Line Quasi-stellar Objects , 1999, astro-ph/9902045.

[57]  Matthias Dietrich,et al.  Structure and Kinematics of Quasar Broad Line Regions , 1999 .

[58]  Keith M. Ashman,et al.  Detecting Bimodality in Astronomical Datasets , 1994 .

[59]  D. Schneider,et al.  The HST quasar absorption line key project. 4: HST faint-object spectrograph and ground-based observations of the unusual low-redshift broad absorption-line quasi-stellar object PG 0043+039 , 1994 .

[60]  Simon L. Morris,et al.  Comparisons of the Emission-Line and Continuum Properties of Broad Absorption Line and Normal Quasi-stellar Objects , 1991 .

[61]  G. Kriss X-ray, optical, and infrared luminosity correlations in radio-quiet quasars , 1988 .

[62]  S. Mathur,et al.  The X-ray and ultraviolet absorbing outflow in 3C 351 , 1994 .

[63]  Maarten Schmidt,et al.  The radio structure of radio loud and radio quiet quasars in the Palomar Bright Quasar Survey , 1994 .

[64]  K. Koyama,et al.  Frontiers of X-ray astronomy , 1992 .

[65]  Maarten Schmidt,et al.  X-ray observations of the bright quasar survey , 1986 .

[66]  G. Ferland,et al.  The PG X-Ray QSO Sample: Links between the Ultraviolet-X-Ray Continuum and Emission Lines , 1999 .

[67]  P. Green Differences between the Optical/Ultraviolet Spectra of X-Ray Bright and X-Ray Faint QSOs , 1998, astro-ph/9802056.

[68]  D. Hines,et al.  The Polarization of Broad Absorption Line QSOs , 1999 .

[69]  W. Sargent,et al.  The Hubble Space Telescope quasar absorption line key project. III - First observational results on Milky Way gas , 1993 .