Dust emission in an accretion-rate-limited sample of z>6 quasars

Bram Venemans, Roberto Decarli, Fabian Walter, Eduardo Bañados, Frank Bertoldi, Xiaohui Fan, Emanuele Farina, Chiara Mazzucchelli, Dominik Riechers, Hans-Walter Rix, Ran Wang, Yujin Yang

Published 2018-09-05Version 1

We present Atacama Large Millimeter Array 1mm observations of the rest-frame far-infrared (FIR) dust continuum in 27 quasars at redshifts 6.0 < z < 6.7. We detect FIR emission at >3sigma in all quasar host galaxies with flux densities at ~1900GHz in the rest-frame of 0.12 < S_rest,1900GHz < 5.9mJy, with a median (mean) flux density of 0.88mJy (1.59mJy). The implied FIR luminosities range from L_FIR = (0.27-13)x10^12 L_sun, with 74% of our quasar hosts having L_FIR > 10^12 L_sun. The estimated dust masses are M_dust = 10^7-10^9 M_sun. If the dust is heated only by star-formation, then the star-formation rates in the quasar host galaxies are between 50 and 2700 M_sun/yr. In the framework of the host galaxy-black hole co-evolution model a correlation between ongoing black hole growth and star-formation in the quasar host galaxy would be expected. However, combined with results from the literature to create a luminosity-limited quasar sample, we do not find a strong correlation between quasar UV luminosity (a proxy for ongoing black hole growth) and FIR luminosity (star-formation in the host galaxy). The absence of such a correlation in our data does not necessarily rule out the co-evolution model, and could be due to a variety of effects (including different timescales for black hole accretion and FIR emission).