Unveiling dust, molecular gas, and high star formation efficiency in extremely UV bright star-forming galaxies at z 2.1-3.6

Abstract

We analysed ALMA FIR (1.3 mm) dust continuum and CO emission of 12 starburst galaxies at z 2.1-3.6, selected for their extreme brightness in the rest-UV with M UV = -23.4 to -24.7. We also analysed VLT HAWK-I H- and K s-band images. The galaxies are characterised by negligible dust attenuations with blue UV spectral slopes (-2.62 to -1.84), very young stellar populations of 10 Myr, and powerful starbursts with a high mean specific star formation rate of 112~Gyr-1, placing them 1.5~dex above the main sequence at similar redshifts and stellar masses (M stars (1.5-4.6)× 109~M). The FIR dust continuum emission revealed in 9 galaxies yields IR luminosities of (5.9-28.3)× 1011~L and large dust masses barely produced by SNe within the 10~Myr timescale. The CO emission detected in 8 galaxies evidence large molecular gas masses with a mean molecular gas fraction of 82%. The corresponding star formation efficiencies reach 40%, with amazingly short molecular gas depletion timescales between <13 Myr and 71 Myr. These unique properties never reported in previously studied galaxies highlight that these galaxies are likely caught at the very beginning of their stellar mass build-up and undergo a very efficient and fast conversion of gas into stars that can only result from the gas collapse within very short free-fall times. We find that the feedback-free starburst model seems to be able to explain the formation of these galaxies. To reconcile the co-spatial FIR dust emission with the UV-bright unattenuated emission, we speculate about radiation-driven outflows that can temporarily remove dust at the location of the starburst and expel dust at large distances in line with the measured large FIR effective radii ( 1.7~kpc - 5~kpc) in comparison to very compact stellar radii.

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