Cold gas disks in main-sequence galaxies at cosmic noon: Low turbulence, flat rotation curves, and disk-halo degeneracy

Abstract

We study the dynamics of cold molecular gas in two main-sequence galaxies at cosmic noon (zC-488879 at z1.47 and zC-400569 at z2.24) using new high-resolution ALMA observations of multiple 12CO transitions. For zC-400569 we also re-analyze high-quality Hα data from the SINS/zC-SINF survey. We find that (1) Both galaxies have regularly rotating CO disks and their rotation curves are flat out to 8 kpc contrary to previous results pointing to outer declines in the rotation speed V rot; (2) The intrinsic velocity dispersions are low (σ CO15 km/s for CO and σ Hα37 km/s for Hα) and imply V rot/σ CO17-22 yielding no significant pressure support; (3) Mass models using HST images display a severe disk-halo degeneracy: models with inner baryon dominance and models with "cuspy" dark matter halos can fit the rotation curves equally well due to the uncertainties on stellar and gas masses; (4) Milgromian dynamics (MOND) can successfully fit the rotation curves with the same acceleration scale a0 measured at z0. The question of the amount and distribution of dark matter in high-z galaxies remains unsettled due to the limited spatial extent of the available kinematic data; we discuss the suitability of various emission lines to trace extended rotation curves at high z. Nevertheless, the properties of these two high-z galaxies (high V rot/σ V ratios, inner rotation curve shapes, bulge-to-total mass ratios) are remarkably similar to those of massive spirals at z0, suggesting weak dynamical evolution over more than 10 Gyr of the Universe's lifetime.