Survival of star-forming giant clumps in high-redshift galaxies
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Krumholz, Mark
Dekel, Avishai
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Oxford University Press
Abstract
We investigate the effects of radiation pressure from stars on the survival of the star-forming
giant clumps in high-redshift massive disc galaxies, during the most active phase of galaxy
formation. The clumps, typically of mass ∼108–109 M and radius ∼0.5–1 kpc, are formed in
the turbulent gas-rich discs by violent gravitational instability and then migrate into a central
bulge in ∼10 dynamical times. We show that the survival or disruption of these clumps under
the influence of stellar feedback depends critically on the rate at which they form stars. If they
convert a few per cent of their gas mass to stars per free-fall time, as observed for all local
star-forming systems and implied by the Kennicutt–Schmidt law, they cannot be disrupted.
Only if clumps convert most of their mass to stars in a few free-fall times can feedback
produce significant gas expulsion. We consider whether such rapid star formation is likely in
high-redshift giant clumps.
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Monthly Notices of the Royal Astronomical Society
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Open Access