Can supernovae quench star formation in high-z galaxies?
Abstract
JWST is providing the unique opportunity to directly study feedback processes regulating star formation (SF) in early galaxies. The two z>5 quiescent systems (JADES-GS-z7-01-QU and MACS0417-z5BBG) detected so far show a recent starburst after which SF is suppressed. To clarify whether such quenching is due to supernova (SN) feedback, we have developed a minimal physical model. We derive a condition on the minimum star formation rate, SFRmin, lasting for a time interval tb, required to quench SF in a galaxy at redshift z, with gas metallicity Z, and hosted by a halo of mass Mh. We find that lower (z, Z, Mh) systems are more easily quenched. We then apply the condition to JADES-GS-z7-01-QU (z=7.3, M=108.6 M) and MACS0417-z5BBG (z=5.2, M=107.6 M), and find that SN feedback largely fails to reproduce the observed quenched SF history. Alternatively, we suggest that SF is rapidly suppressed by radiation-driven dusty outflows sustained by the high specific SFR (43 and 25 Gyr-1, respectively) of the two galaxies. Our model provides a simple tool to interpret the SF histories of post-starburst galaxies, and unravel quenching mechanisms from incoming JWST data.
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