Resolving Disks & Mergers in z2 Heavily Reddened Quasars and their Companion Galaxies with ALMA

Abstract

We present sub-arcsecond resolution ALMA imaging of the CO(3-2) emission in two z2.5 heavily reddened quasars (HRQs) - ULASJ1234+0907 and ULASJ2315+0143 - and their companion galaxies. Dynamical modeling of the resolved velocity fields enables us to constrain the molecular gas morphologies and host galaxy masses. Combining the new data with extensive multi-wavelength observations, we are able to study the relative kinematics of different molecular emission lines, the molecular gas fractions and the locations of the quasars on the MBH-Mgal relation. Despite having similar black-hole properties, the two HRQs display markedly different host galaxy properties and local environments. J1234 has a very massive host, Mdyn 5 × 1011M and two companion galaxies that are similarly massive located within 200 kpc of the quasar. The molecular gas fraction is low (6%). The significant ongoing star formation in the host galaxy is entirely obscured at rest-frame UV and optical wavelengths. J2315 is resolved into a close-separation major-merger (=15 kpc; =170 km/s) with a 1:2 mass ratio. The total dynamical mass is estimated to be 1011M and the molecular gas fraction is high (>45%). A new HSC image of the galaxy shows unobscured UV-luminous star-forming regions co-incident with the extended reservoir of cold molecular gas in the merger. We use the outputs from the Illustris simulations to track the growth of such massive black holes from z6 to the present day. While J1234 is consistent with the simulated z2 relation, J2315 has a black hole that is over-massive relative to its host galaxy.