Swift Observations of High-Redshift Radio-loud Quasars

We report on Swift observations of four z > 2 radio-loud quasars (0212+735, 0537-286, 0836+710, and 2149-307), classified as blazars. The sources, well-known emitters at soft-to-medium X-rays, were detected at >5 sigma with the BAT experiment in 15-150 keV. No flux variability was detected wit...

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Veröffentlicht in:The Astrophysical journal 2007-11, Vol.669 (2), p.884-892
Hauptverfasser: Sambruna, R. M, Tavecchio, F, Ghisellini, G, Donato, D, Holland, S. T, Markwardt, C. B, Tueller, J, Mushotzky, R. F
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Sprache:eng
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Zusammenfassung:We report on Swift observations of four z > 2 radio-loud quasars (0212+735, 0537-286, 0836+710, and 2149-307), classified as blazars. The sources, well-known emitters at soft-to-medium X-rays, were detected at >5 sigma with the BAT experiment in 15-150 keV. No flux variability was detected within the XRT and BAT exposures, with the exception of 0836+710, which shows an increase by a factor of 4 in the 15-150 keV flux on a timescale of 1 month. The 0.3-10 keV spectra are well fitted by power-law models, with rather hard continua (photon indices Gamma sub(xrt) similar to 1.3 -1.5); similarly, the 15-150 keV spectra are described by power laws with Gamma sub(BAT) similar to 1.3 -1.8. The XRT data exhibit spectral curvature, which can be modeled in terms of either excess absorption along the line of sight or a downward-curved broken power law. In the former case, if the excess N sub(h) is at the rest frame of the source, columns of [unk]=(0.3 -6) x 10 super(22) cm super(-2) are measured. Modeling of the SEDs of the four quasars shows that the emission at the higher frequencies, [unk]10 super(16) Hz, is dominated by the jet, while the steep optlcal-to-UV continua, observed with the UVOT, can be attributed to thermal emission from the accretion disk. The disk luminosity is between 1% and 10% of the jet power, similar to other powerful biazars.
ISSN:0004-637X
1538-4357
DOI:10.1086/521694