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Gas dynamics of a luminous $z$ = 6.13 quasar ULAS J1319$+$0950 revealed by ALMA high resolution observations
, , , , , , , , , , , , , , and .
(2017)cite arxiv:1707.03078Comment: 23 pages, 5 figures, submitted to ApJ.

We present new Atacama Large Millimeter/submillimeter Array (ALMA) observations of the dust continuum and C II 158 $\mu$m fine structure line emission towards a far-infrared-luminous quasar, ULAS J131911.29$+$095051.4 at $z=6.13$, and combine the new Cycle 1 data with ALMA Cycle 0 data. The combined data have an angular resolution $\sim$ $0.3$, and resolve both the dust continuum and the C II line emission on few kpc scales. The C II line emission is more irregular than the dust continuum emission which suggests different distributions between the dust and C II-emitting gas. The combined data confirm the C II velocity gradient that we previously detected in lower resolution ALMA image from Cycle 0 data alone. We apply a tilted ring model to the C II velocity map to obtain a rotation curve, and constrain the circular velocity to be 427 $\pm$ 55 km s$^-1$ at a radius of 3.2 kpc with an inclination angle of 34$^\circ$. We measure the dynamical mass within the 3.2 kpc region to be 13.4$_-5.3^+7.8$ $\times 10^10\,M_ødot$. This yields a black hole and host galaxy mass ratio of 0.020$_-0.007^+0.013$, which is about 4$_-2^+3$ times higher than the present-day $M_\rm BH$/$M_\rm bulge$ ratio. This suggests that the supermassive black hole grows the bulk of its mass before the formation of the most of stellar mass in this quasar host galaxy in the early universe.
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