Clumpy star formation and an obscured nuclear starburst in the luminous dusty z=4 galaxy GN20 seen by MIRI/JWST

Abstract

Dusty star-forming galaxies emit most of their light at far-IR to mm wavelengths as their star formation is highly obscured. Far-IR and mm observations have revealed their dust, neutral and molecular gas properties. The sensitivity of JWST at rest-frame optical and near-infrared wavelengths now allows the study of the stellar and ionized gas content. We investigate the spatially resolved distribution and kinematics of the ionized gas in GN20, a dusty star forming galaxy at z=4.0548. We present deep MIRI/MRS integral field spectroscopy of the near-infrared rest-frame emission of GN20. We detect spatially resolved , out to a radius of 6 kpc, distributed in a clumpy morphology. The star formation rate derived from \ (144 9 ) is only 7.7 0.5 \% of the infrared star formation rate (1860 90 ). We attribute this to very high extinction (AV = 17.2 0.4 mag, or AV,mixed = 44 3 mag), especially in the nucleus of GN20, where only faint \ is detected, suggesting a deeply buried starburst. We identify four, spatially unresolved, clumps in the \ emission. Based on the double peaked \ profile we find that each clump consist of at least two sub-clumps. We find mass upper limits consistent with them being formed in a gravitationally unstable gaseous disk. The UV bright region of GN20 does not have any detected \ emission, suggesting an age of more than 10 Myrs for this region of the galaxy. From the rotation profile of \ we conclude that the gas kinematics are rotationally dominated and the vrot/σm = 3.8 1.4 is similar to low-redshift LIRGs. We speculate that the clumps seen in GN20 could contribute to building up the inner disk and bulge of GN20.

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