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Gravitational fragmentation in turbulent primordial gas and the initial mass function of population III stars

Clark, Paul ORCID:, Glover, Simon C. O., Klessen, Ralf S. and Bromm, Volker 2011. Gravitational fragmentation in turbulent primordial gas and the initial mass function of population III stars. Astrophysical Journal 727 (2) , pp. 110-128. 10.1088/0004-637X/727/2/110

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We report results from numerical simulations of star formation in the early universe that focus on the dynamical behavior of metal-free gas under different initial and environmental conditions. In particular we investigate the role of turbulence, which is thought to ubiquitously accompany the collapse of high-redshift halos. We distinguish between two main cases: the birth of Population III.1 stars—those which form in the pristine halos unaffected by prior star formation—and the formation of Population III.2 stars—those forming in halos where the gas has an increased ionization fraction. We find that turbulent primordial gas is highly susceptible to fragmentation in both cases, even for turbulence in the subsonic regime, i.e., for rms velocity dispersions as low as 20% of the sound speed. Fragmentation is more vigorous and more widespread in pristine halos compared to pre-ionized ones. If such levels of turbulent motions were indeed present in star-forming minihalos, Population III.1 stars would be on average of somewhat lower mass, and form in larger groups, than Population III.2 stars. We find that fragment masses cover over two orders of magnitude, suggesting that the Population III initial mass function may have been much broader than previously thought. This prompts the need for a large, high-resolution study of the formation of dark matter minihalos that is capable of resolving the turbulent flows in the gas at the moment when the baryons become self-gravitating. This would help to determine the applicability of our results to primordial star formation.

Item Type: Article
Date Type: Publication
Status: Published
Schools: Physics and Astronomy
Subjects: Q Science > QB Astronomy
Uncontrolled Keywords: early universe; galaxies: clusters: general; hydrodynamics; stars: formation; stars: luminosity function, mass function
Publisher: IOP Science
ISSN: 0004-637X
Last Modified: 25 Oct 2022 09:44

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