Journal
ASTRONOMY & ASTROPHYSICS
Volume 546, Issue -, Pages -Publisher
EDP SCIENCES S A
DOI: 10.1051/0004-6361/201218952
Keywords
galaxies: active; galaxies: Seyfert; galaxies: statistics; galaxies: star formation; X-rays: galaxies; infrared: galaxies
Categories
Funding
- ESA Member States
- USA (NASA)
- ASI-INAF [I/009/10/00]
- Marie-Curie Fellowship [RF040294]
- Spanish Ministry of Science and Innovation [AYA2010-21490-C02-01]
- STFC
- STFC [ST/I001573/1] Funding Source: UKRI
- Science and Technology Facilities Council [ST/I001573/1] Funding Source: researchfish
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Models of galaxy evolution assume some connection between the AGN and star formation activity in galaxies. We use the multi-wavelength information of the CDFS to assess this issue. We select the AGNs from the 3 Ms XMM-Newton survey and measure the star-formation rates of their hosts using data that probe rest-frame wavelengths longward of 20 mu m, predominantly from deep 100 mu m and 160 mu m Herschel observations, but also from Spitzer-MIPS-70 mu m. Star-formation rates are obtained from spectral energy distribution fits, identifying and subtracting an AGN component. Our sample consists of sources in the z approximate to 0.5-4 redshift range, with star-formation rates SFR approximate to 10(1)-10(3) M(circle dot)yr(-1) and stellar masses M-star approximate to 10(10)-10(11.5) M-circle dot. We divide the star-formation rates by the stellar masses of the hosts to derive specific star-formation rates (sSFR) and find evidence for a positive correlation between the AGN activity (proxied by the X-ray luminosity) and the sSFR for the most active systems with X-ray luminosities exceeding L-x similar or equal to 10(43) erg s(-1) and redshifts z greater than or similar to 1. We do not find evidence for such a correlation for lower luminosity systems or those at lower redshifts, consistent with previous studies. We do not find any correlation between the SFR (or the sSFR) and the X-ray absorption derived from high-quality XMM-Newton spectra either, showing that the absorption is likely to be linked to the nuclear region rather than the host, while the star-formation is not nuclear. Comparing the sSFR of the hosts to the characteristic sSFR of star-forming galaxies at the same redshift (the so-called main sequence) we find that the AGNs reside mostly in main-sequence and starburst hosts, reflecting the AGN-sSFR connection; however the infrared selection might bias this result. Limiting our analysis to the highest X-ray luminosity AGNs (X-ray QSOs with L-x > 10(44) erg s(-1)), we find that the highest-redshift QSOs (with z greater than or similar to 2) reside predominantly in starburst hosts, with an average sSFR more than double that of the main sequence, and we find a few cases of QSOs at z approximate to 1.5 with specific star-formation rates compatible with the main-sequence, or even in the quiescent region. Finally, we test the reliability of the colour-magnitude diagram (plotting the rest-frame optical colours against the stellar mass) in assessing host properties, and find a significant correlation between rest-frame colour (without any correction for AGN contribution or dust extinction) and sSFR excess relative to the main sequence at a given redshift. This means that the most starbursty objects have the bluest rest-frame colours.
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