Resolving the interstellar medium in the nuclear region of two z=5.78 quasar host galaxies with ALMA

We present ALMA observations of the [CII] 158 micron fine structure line and dust continuum emission from two quasars, SDSSJ104433.04-012502.2 and SDSSJ012958.51-003539.7, at z=5.78. The ALMA observations at 0.2" resolution map the dust and gas on kpc scales. The spatially resolved emission show a similar trend of increasing [CII]-FIR ratios with decreasing FIR surface brightnesses toward larger radii as was found in the infrared luminous galaxies with intense star formation. We confirm the velocity gradients of [CII] emission found previously in SDSS J0129-0035. No evidence of order motion is detected in SDSS J1044-0125. The velocity maps and PV-diagrams also suggest turbulent gas clumps in both objects. We tentatively detect a [CII] peak offset 4.9 kpc to the East of SDSS J1044-0125. This may be associated with an infalling companion, or node of gas outflows. All these results suggest significant dynamical evolution of the ISM in the nuclear region of these young quasar-starburst systems. We fit the velocity map of the [CII] emission from SDSS J0129-0035 with a rotating disk model. The result suggests a face-on system with an inclination angle of 16+/-20 degree and constrains the lower limit of the host galaxy dynamical mass to be 2.6x10^10 Msun within the [CII] emitting region. It is likely that SDSS J0129-0035, as well as other young quasars with super massive black hole masses on order of 10^7 Msun to 10^8 Msun, falls close to the black hole and host galaxy mass relation defined by local galaxies.