Abstract
For measurement of the active galactic nucleus (AGN) luminosity function and its evolution, X-ray selection samples all types of AGNs and provides reduced obscuration bias in comparison with UV excess or optical surveys. The apparent decline in optically selected quasars above z ~ 3 may be strongly affected by such a bias. The Chandra Multiwavelength Project (CHAMP) is characterizing serendipitously detected X-ray sources in a large number of fields with archival Chandra imaging. We present a preliminary measure of the comoving space density using a sample of 311 AGNs found in 23 CHAMP fields (~1.8 deg2) supplemented with 57 X-ray-bright AGNs from the Chandra Deep Field-North and Chandra Deep Field-South. Within our X-ray flux (f0.3-8.0 keV > 4 × 10-15 ergs cm-2 s-1) and optical magnitude (r' 3. Using this X-ray-selected sample, we detect a turnover in the comoving space density of luminous type 1 AGNs (log LX > 44.5 ergs s-1, measured in the 0.3-8.0 keV band and corrected for Galactic absorption) at z > 2.5. Our X-ray sample is the first to show a behavior similar to the well-established evolution of the optical quasar luminosity function. A larger sample of high-redshift AGNs and with a greater fraction of identified sources, either spectroscopic or photometric, at faint optical magnitudes (r' > 22.5) are required to remove the remaining uncertainty in our measure of the X-ray luminosity function, particularly given the possibility that AGNs might be more easily obscured optically at high redshift. We confirm that for z < 1, lower luminosity AGNs (log LX < 44.5) are more prevalent by more than an order of magnitude than those with high luminosity. We have combined the Chandra sample with AGNs from the ROSAT surveys to present a measure of the space density of luminous type 1 AGNs in the soft X-ray band (0.5-2.0 keV) that confirms the broadband turnover described above.
Highlights
Optical surveys have measured the evolution of QSOs out to z $ 6 (Fan et al 2004)
In these Chandra Multiwavelength Project (CHAMP) fields, we find a diversity of objects (AGNs, clusters, galaxies, and stars), 85% of them are attributed to an active galactic nucleus (AGN) (Green et al 2004; Silverman et al 2004)
We have measured the broadband (0.3–8.0 keV ) comoving space density using a sample of 368 X-ray–emitting AGNs detected by Chandra
Summary
Optical surveys have measured the evolution of QSOs out to z $ 6 (Fan et al 2004). The most dramatic feature found is the rise and fall of the comoving space density with peak activity at z $ 2:5. Using a highly complete sample of 941 AGNs selected in the soft band, Hasinger et al (2005) show the same luminosity dependence and extend the space density measurement of low-luminosity AGNs (LX < 1044 ergs sÀ1) out to z $ 3 These latest results clearly require a luminosity-dependent density evolution model (Miyaji et al 2000) in contrast to a ‘‘pure’’ luminosity evolution model, descriptive of optically selected QSOs (Croom et al 2004). The lack of a decline in the space density at z > 3, in contrast to the behavior seen in optical surveys, could be evidence for obscuration at early epochs We can test this model (Fabian 1999) by measuring the luminosity function and comoving space density of X-ray– selected AGNs over a wide area to compile a significant sample at z > 3. We assume H0 1⁄4 70 km sÀ1 MpcÀ1, Ã 1⁄4 0:7, and M 1⁄4 0:3 with the exception of those parameters used in x 6.2
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