Infrared to x-ray spectral energy distributions of high redshift quasars

Details Infrared to x-ray spectral energy distributions of high redshift quasars Infrared to x-ray spectral energy distributions of high redshift quasars

Aug 1994

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1994aj....108..374b&link_type=abstract

The Astronomical Journal, vol. 108, no. 2, p. 374-394

Astronomy and Astrophysics

Astronomy

56

Astronomical Spectroscopy, Infrared Astronomy, Quasars, Red Shift, Spectral Energy Distribution, X Ray Spectroscopy, Accretion Disks, Galaxies, Infrared Photometry, Radio Astronomy, Spectrophotometry, X Ray Astronomy

Scientific paper

We have observed 14 quasars with z greater than 2.8 with the ROSAT-PSPC, and detected 12 of them, including the z=4.11 quasar 0000-263. We present the first x-ray spectrum of a radio quiet quasar with z greater than 3, 1946+768. Its x-ray spectrum is consistent with a power law with spectral index alphaE=1.8+2.1,-1.4 and no evidence for absorption in excess of the galactic column (alphaE=1.00+0.28,-0.32 assuming NH=NH(Gal)). A Position Sensitive Proportional Counter (PSPC) hardness ratio is used to constrain the x-ray spectral properties of the quasars for which there were less than 100 photons detected. For the radio quiet quasars, (alphaE) approximately equals 1.2, if one assumes that there is no absorption in excess of the galactic column. We combine the x-ray data with new ground based optical and near-IR spectrophotometry obtained at the Steward 2.3 m and Multiple Mirror Telescope, and data from the literature. The spectral energy distributions are compared to those of low redshift objects. For the radio quiet quasars with z greater than 2.5, the mean (alphaox) is approximately 1.8. This is larger than the mean for quasars with z less than 2.5, but consistent with the expected value for quasars with the high optical luminosities of the objects in this sample. For the radio-loud quasars, (alphaox) is approximately 1.4, independent of redshift. This is smaller than the expected value for the optically luminous, high redshift objects in this sample, if they are mostly GHz peaked radio sources and hence comparable to steep-spectrum, compact radio sources at lower redshift. Finally, we compare the spectral energy distributions of two representative objects to the predicted spectrum of a thin accretion disk in the Kerr geometry, and discuss the uncertainties in deriving black hole masses and mass accretion rates.

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