Optical Identification of the ASCA Large Sky Survey

We present results of optical identification of the X-ray sources detected in the ASCA Large Sky Survey. Optical spectroscopic observations were done for 34 X-ray sources that were detected with the SIS in the 2-7 keV band above 3.5 ?. The flux limit corresponds to ~1 ? 10-13 ergs cm-2 s-1 in the 2-10 keV band. The sources are identified with 30 active galactic nuclei (AGNs), two clusters of galaxies, and one Galactic star. Only one source is still unidentified. All of the X-ray sources that have a hard X-ray spectrum with an apparent photon index of smaller than 1 in the 0.7-10 keV band are identified with narrow-line or weak-broad-line AGNs at redshifts smaller than 0.5. This fact supports the idea that absorbed X-ray spectra of narrow-line and weak-broad-line AGNs make the cosmic X-ray background (CXB) spectrum harder in the hard X-ray band than that of a broad-line AGN, which is the main contributor in the soft X-ray band. Assuming their intrinsic spectra are same as a broad-line AGN (a power-law model with a photon index of 1.7), their X-ray spectra are fitted with hydrogen column densities of log NH(cm-2) = 22-23 at the object's redshift. On the other hand, X-ray spectra of the other AGNs are consistent with that of a nearby type 1 Seyfert galaxy. In the sample, four high-redshift luminous broad-line AGNs show a hard X-ray spectrum with an apparent photon index of 1.3 ? 0.3. The hardness may be explained by the reflection component of a type 1 Seyfert galaxy. The hard X-ray spectra may also be explained by absorption with log NH(cm-2) = 22-23 at the object's redshift, if we assume an intrinsic photon index of 1.7. The origin of the hardness is not clear yet. Based on the log N- log S relations of each population, contributions to the CXB in the 2-10 keV band are estimated to be 9% for less-absorbed AGNs (log NH(cm-2) < 22) including the four high-redshift broad-line AGNs with a hard X-ray spectrum, 4% for absorbed AGNs (22 < log NH(cm-2) < 23, without the four hard broad-line AGNs), and 1% for clusters of galaxies in the flux range from 3 ? 10-11 ergs cm-2 s-1 to 2 ? 10-13 ergs cm-2 s-1. If the four hard broad-line AGNs are included in the absorbed AGNs, the contribution of the absorbed AGNs to the CXB is estimated to be 6%. In optical spectra, there is no high-redshift luminous cousin of a narrow-line AGN in our sample. The redshift distribution of the absorbed AGNs is limited below z = 0.5 excluding the four hard broad-line AGNs, in contrast to the existence of 15 less-absorbed AGNs above z = 0.5. The redshift distribution of the absorbed AGNs suggests a deficiency of AGNs with column densities of log NH(cm-2) = 22-23 in the redshift range 0.5-2, or in the X-ray luminosity range larger than 1044 ergs s-1, or both. If the large column densities of the four hard broad-line AGNs are real, they could complement the deficiency of X-ray absorbed luminous high-redshift AGNs.

[1]  The Hardest X-Ray Source in the ASCA Large Sky Survey: Discovery of a New Type 2 Seyfert , 1998, astro-ph/9804118.

[2]  B. Boyle,et al.  ASCA observations of deep ROSAT fields — II. The 2–10 keV AGN luminosity function , 1998 .

[3]  Y. Ueda On the Fixed-point Algebra under a Minimal Free Product-type Action of the Quantum Group SUq(2) , 2000 .

[4]  F. Masci,et al.  Evidence for a large undetected population of dust-reddened quasars , 1995, Nature.

[5]  T. Kii,et al.  Discovery of a Type 2 Quasar at z = 0.9 , 1996 .

[6]  T. Takahashi,et al.  log N-log S Relations and Spectral Properties of Sources from the ASCA Large Sky Survey: Their Implications for the Origin of the Cosmic X-Ray Background (CXB) , 1999, astro-ph/9901101.

[7]  David Schade,et al.  The Space Distribution of Quasars , 1990 .

[8]  C. Kochanek,et al.  Limits on Cosmological Models from Radio-selected Gravitational Lenses , 1997, astro-ph/9707032.

[9]  R. Maiolino,et al.  The Distribution of Absorbing Column Densities among Seyfert 2 Galaxies , 1999, astro-ph/9902377.

[10]  Isabella M. Gioia,et al.  The Einstein Observatory Extended Medium-Sensitivity Survey. II - The optical identifications , 1991 .

[11]  H. Winkler Variability studies of Seyfert galaxies – II. Spectroscopy , 1992 .

[12]  B. Wills,et al.  Spectroscopy of 206 QSO candidates and radio galaxies , 1976 .

[13]  P. Hewett,et al.  Radio properties of optically selected quasars , 1992 .

[14]  Peter J. Serlemitsos,et al.  Complete x-ray sample of the high-latitude (Vertical BarbVertical Bar>20/sup 0/) sky from HEAO 1 A-2: Log N-log S and luminosity functions , 1982 .

[15]  A. Hornstrup,et al.  A Catalog of 203 Galaxy Clusters Serendipitously Detected in the ROSAT PSPC Pointed Observations , 1998, astro-ph/9803099.

[16]  T. Boller,et al.  The Hamburg/RASS Catalogue of optical identifications , 1998 .

[17]  P. Giommi,et al.  The contribution of faint active galactic nuclei to the hard X-ray background , 1999 .

[18]  D. Schade Very Faint Quasar Survey: Procedures and preliminary Results , 1991 .

[19]  Goldenberg R.L. Etal Bed Rest in Pregnancy , 1994 .

[20]  John N. Bahcall,et al.  Hubble Space Telescope Images of a Sample of 20 Nearby Luminous Quasars , 1996, astro-ph/9611163.

[21]  Mamoru Doi,et al.  DEVELOPMENT OF A 2000 X 8144-PIXEL MOSAIC CCD CAMERA , 1992 .

[22]  Optical Identification of the Hardest X-Ray Source in the ASCA Large-Sky Survey , 1998, astro-ph/9801173.

[23]  D. Osterbrock,et al.  Astrophysics of Gaseous Nebulae and Active Galactic Nuclei , 1989 .

[24]  A. Lawrence The relative frequency of broad-lined and narrow-lined active galactic nuclei: implications for unified schemes , 1991 .

[25]  T. J. Turner,et al.  The EXOSAT spectral survey of AGN , 1989 .

[26]  P. Hewett,et al.  A High Signal-to-Noise Ratio Composite Quasar Spectrum , 1991 .

[27]  T. Tsuru,et al.  A population of faint galaxies that contribute to the cosmic X-ray background , 1998, Nature.

[28]  R. Giacconi,et al.  Evidence for x Rays From Sources Outside the Solar System , 1962 .

[29]  Richard L. White,et al.  The FIRST Survey: Faint Images of the Radio Sky at twenty centimeters , 1995 .

[30]  A. C. Fabian,et al.  The unified Seyfert scheme and the origin of the cosmic X-ray background , 1994 .

[31]  Maarten Schmidt,et al.  The spectral properties of a large sample of quasars. , 1980 .

[32]  M. S. Oey,et al.  Atlas of quasar energy distributions , 1994 .

[33]  P. Wild,et al.  Catalogue of Galaxies and of Clusters of Galaxies , 1961 .

[34]  X. Barcons,et al.  Discovery of an X-ray-selected radio-loud obscured AGN at z ¼ 1:246 , 1998 .

[35]  M. Elvis,et al.  Radio-quiet Red Quasars , 1999 .

[36]  G. Abell,et al.  A Catalog of Rich Clusters of Galaxies , 1989 .