Duncan Farrah, Tanya Urrutia, Mark Lacy, Andreas Efstathiou, Jose Afonso, Kristen Coppin, Patrick B. Hall, Carol Lonsdale, Tom Jarrett, Carrie Bridge, Colin Borys, Sara Petty
We use SDSS spectra and optical to far-infrared photometry for a sample of 31
FeLoBAL QSOs to study the relationship between the AGN-driven outflows, and
obscured star formation in their host galaxies. We find that FeLoBAL QSOs
invariably have IR luminosities exceeding 10^12 Solar luminosities. The AGN
supplies 75% of the total IR emission, on average, but with a range from 20% to
100%. We find a clear anticorrelation between the strength of the AGN-driven
outflows and the contribution from star formation to the total IR luminosity,
with a much higher chance of seeing a starburst contribution in excess of 25%
in systems with weak outflows than in systems with strong outflows. Moreover,
we find no evidence that this effect is driven by the IR luminosity of the AGN.
We conclude that radiatively driven outflows from AGN act to curtail obscured
star formation in the host galaxies of reddened QSOs to less than ~25% of the
total IR luminosity. This is the most direct evidence yet obtained for `quasar
mode' AGN feedback.
View original:
http://arxiv.org/abs/1112.1096
No comments:
Post a Comment