The MUSE Hubble Ultra Deep Field Survey XVI. The angular momentum of low-mass star-forming galaxies. A cautionary tale and insights from TNG50

Abstract

We investigate the specific angular momentum (sAM) j(<r) profiles of intermediate redshift (0.4<z<1.4) star-forming galaxies (SFGs) in the relatively unexplored regime of low masses (down to M 108M), and small sizes (down to R e 1.5 kpc) and characterize the sAM scaling relation and its redshift evolution. We have developed a 3D methodology to constrain sAM profiles of the star-forming gas using a forward modeling approach with that incorporates the effects of beam smearing, yielding the intrinsic morpho-kinematic properties even with limited spatial resolution data. Using mock observations from the TNG50 simulation, we find that our 3D methodology robustly recovers the star formation rate (SFR)-weighted j(<r) profiles down to low effective signal-to-noise ratio (SNR) of 3. We applied our methodology blindly to a sample of 494 -selected SFGs in the MUSE Ultra Deep Field (UDF) 9~arcmin2 mosaic data, covering the unexplored 8< M*/M<9 mass range. We find that the (SFR-weighted) sAM relation follows j Mα with an index α varying from α=0.3 to α=0.5, from M/M=8 to M*/M=10.5. The UDF sample supports a redshift evolution consistent with the (1+z)-0.5 expectation from a Universe in expansion. The scatter of the sAM sequence is a strong function of the dynamical state with j|M* 0.65 × (V max/σ) where σ is the velocity dispersion at 2 R e. In TNG50, SFGs also form a j-M-(V/σ) plane but it correlates more with galaxy size than with morphological parameters. Our results suggest that SFGs might experience a dynamical transformation before their morphological transformation to becoming passive via either merging or secular evolution.

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