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Large-scale Turbulent Driving Regulates Star Formation in High-redshift Gas-rich Galaxies

Noé Brucy, Patrick Hennebelle, Frédéric Bournaud, Cédric Colling

2020The Astrophysical Journal Letters29 citationsDOIOpen Access PDF

Abstract

Abstract The question of what regulates star formation is a longstanding issue. To investigate this issue, we run simulations of a kiloparsec cube section of a galaxy with three kinds of stellar feedback: the formation of H ii regions, the explosion of supernovae, and ultraviolet heating. We show that stellar feedback is sufficient to reduce the averaged star formation rate (SFR) to the level of the Schmidt–Kennicutt law in Milky Way–like galaxies but not in high-redshift gas-rich galaxies, suggesting that another type of support should be added. We investigate whether an external driving of the turbulence such as the one created by the large galactic scales could diminish the SFR at the observed level. Assuming that the Toomre parameter is close to 1 as suggested by the observations, we infer a typical turbulent forcing that we argue should be applied parallel to the plane of the galactic disk. When this forcing is applied in our simulations, the SFR within our simulations closely follows the Schmidt–Kennicutt relation. We found that the velocity dispersion is strongly anisotropic with the velocity dispersion alongside the galactic plane being up to 10 times larger than the perpendicular velocity.

Topics & Concepts

PhysicsAstrophysicsStar formationGalaxyVelocity dispersionMilky WayGalactic planeTurbulencePlane (geometry)DiscDispersion (optics)Forcing (mathematics)Local GroupGalaxy formation and evolutionAstronomyElliptical galaxyStar (game theory)Galactic haloAnisotropyStar clusterGalaxies: Formation, Evolution, PhenomenaAstrophysics and Star Formation StudiesAstronomy and Astrophysical Research
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