Fast rotating and low-turbulence discs at z 4.5: Dynamical evidence of their evolution into local early-type galaxies

Abstract

Massive starburst galaxies in the early Universe are estimated to have depletion times of 100 Myr and thus be able to convert their gas very quickly into stars, possibly leading to a rapid quenching of their star formation. For these reasons, they are considered progenitors of massive early-type galaxies (ETGs). In this paper, we study two high-z starbursts, AzTEC/C159 (z 4.57) and J1000+0234 (z 4.54), observed with ALMA in the [CII] 158-μm emission line. These observations reveal two massive and regularly rotating gaseous discs. A 3D modelling of these discs returns rotation velocities of about 500 km/s and gas velocity dispersions as low as ≈ 20 km/s, leading to very high ratios between regular and random motion (V/σ .7ex\;>\; 20), at least in AzTEC/C159. The mass decompositions of the rotation curves show that both galaxies are highly baryon-dominated with gas masses of ≈ 1011M, which, for J1000+0234, is significantly higher than previous estimates. We show that these high-z galaxies overlap with z=0 massive ETGs in the ETG analogue of the stellar-mass Tully-Fisher relation once their gas is converted into stars. This provides dynamical evidence of the connection between massive high-z starbursts and ETGs, although the transformation mechanism from fast rotating to nearly pressure-supported systems remains unclear.