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The Critical Dark Matter Halo Mass for Population III Star Formation: Dependence on Lyman–Werner Radiation, Baryon-dark Matter Streaming Velocity, and Redshift

Mihir Kulkarni, Eli Visbal, Greg L. Bryan

2021The Astrophysical Journal73 citationsDOIOpen Access PDF

Abstract

Abstract A critical dark matter halo mass ( M crit ) for Population III stars can be defined as the typical minimum halo mass that hosts sufficient cold-dense gas required for the formation of the first stars. The presence of Lyman–Werner (UV) radiation, which can dissociate molecular hydrogen, and the baryon-dark matter streaming velocity both delay the formation of Population III stars by increasing M crit . In this work, we constrain M crit as a function of Lyman–Werner flux (including self-shielding), baryon-dark matter streaming, and redshift using cosmological simulations with a large sample of halos utilizing the adaptive mesh refinement code enzo . We provide a fit for M crit as a function of these quantities, which we expect to be particularly useful for semi-analytical models of early galaxy formation. In addition, we find (i) the measured redshift dependence of M crit in the absence of radiation or streaming is (1 + z ) −1.58 , consistent with a constant virial temperature; (ii) increasing the UV background increases M crit while steepening the redshift dependence, up to (1 + z ) −5.7 ; (iii) baryon-dark matter streaming boosts M crit but flattens the dependence on redshift; (iv) the combination of the two effects is not simply multiplicative.

Topics & Concepts

PhysicsAstrophysicsRedshiftDark matterHaloGalaxyPopulationDark matter haloStar formationStarsVirial theoremHalo mass functionGalaxy formation and evolutionVirial massAstronomySource countsReionizationInitial mass functionGalactic haloFlux (metallurgy)Cold dark matterDark AgesVelocity dispersionWarm dark matterLow MassGalaxies: Formation, Evolution, PhenomenaAstronomy and Astrophysical ResearchStellar, planetary, and galactic studies
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