Detection of $1.6\times 10^{10}$ M$_\odot$ of molecular gas in the host galaxy of the $z=5.77$ SDSS quasar J0927+2001

TL;DR

This paper reports the detection of a massive molecular gas reservoir in a high-redshift quasar host galaxy, indicating rapid galaxy and black hole formation within the first billion years of the universe.

Contribution

First detection of such a large molecular gas mass in a z=5.77 quasar host, providing evidence for early galaxy and black hole co-evolution.

Findings

Molecular gas mass of (1.6 ± 0.3) × 10^{10} M_sun

Detection of CO 5-4 and 6-5 lines at z=5.77

Consistent with a massive starburst and quasar activity

Abstract

We have detected emission by the CO 5-4 and 6-5 rotational transitions at $z = 5.7722\pm 0.0006$ from the host galaxy of the SDSS quasar J0927+2001 using the Plateau de Bure interferometer. The peak line flux density for the CO 5-4 line is $0.72 \pm 0.09$ mJy, with a line FWHM = $610 \pm 110$ km s$^{-1}$. The implied molecular gas mass is $(1.6 \pm 0.3) \times 10^{10}$ M$_\odot$. We also detect the 90 GHz continuum at $0.12 \pm 0.03$ mJy, consistent with a 47K dust spectrum extrapolated from higher frequencies. J0927+2001 is the second example of a huge molecular gas reservoir within the host galaxy of a quasar within 1 Gyr of the big bang. Observations of J0927+2001 are consistent with a massive starburst coeval with a bright quasar phase in the galaxy, suggesting the rapid formation of both a super-massive black hole through accretion, and the stellar host spheroid, at a time close to the end of cosmic reionization.