http://arxiv.org/abs/1908.04795
Quasars are the most luminous of active galactic nuclei (AGN), and are perhaps responsible for quenching star formation in their hosts. The Stripe 82X catalog covers 31.3 deg$^2$ of the Stripe 82 field, of which the 15.6 deg$^2$ covered with XMM-Newton is also covered by Herschel/SPIRE. We have 2500 X-ray detected sources with multi-wavelength counterparts, and 30\% of these are unobscured quasars, with $L_X > 10^{44}\,$erg/s and $M_B < -23$. We define a new population of quasars which are unobscured, have X-ray luminosities in excess of $10^{44}\,$erg/s, have broad emission lines, and yet are also bright in the far-infrared, with a 250 $\mu$m flux density of $S_{\rm 250}>30$ mJy. We refer to these Herschel-detected, unobscured quasars as “Cold Quasars”. A mere 4% (23) of the X-ray- and optically-selected unobscured quasars in Stripe 82X are detected at 250 $\mu$m. These Cold Quasars lie at $z\sim1-3$, have $M_{\rm dust} \sim10^8-10^9 M_\odot$, have $L_{\rm IR}>10^{12} L_\odot$, and have star formation rates of $200-2000 M_\odot$/yr. Cold Quasars are bluer in the mid-IR than the full quasar population, and 75% of our Cold Quasars have WISE W3 $<$ 11.5 [Vega], while only 19% of the full quasar sample meets this criteria. Crucially, Cold Quasars have $4-7\times$ as much star formation as the unobscured quasar population at similar redshifts. This phase is likely short-lived, as the central engine and immense star formation consume the gas reservoir. Cold Quasars are type-1 blue quasars that reside in starburst galaxies.
A. Kirkpatrick, C. Urry, J. Brewster, et. al.
Thu, 15 Aug 19
37/69
Comments: 13 pages, 11 figures, submitted to ApJ