期刊
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
卷 496, 期 2, 页码 1124-1131出版社
OXFORD UNIV PRESS
DOI: 10.1093/mnras/staa1565
关键词
galaxies: evolution; galaxies: high-redshift; galaxies: star formation
资金
- Black Hole Initiative at Harvard University - JTF
- Black Hole Initiative at Harvard University - GBMF
We combine the latest observationally motivated constraints on stellar properties in dark matter haloes, along with data-driven predictions for the atomic (H1) and molecular (H-2) gas evolution in galaxies, to derive empirical relationships between the build-up of galactic components and their evolution over cosmic time. At high redshift (z greater than or similar to 4), the frameworks imply that galaxies acquire their cold gas (both atomic and molecular) mostly by accretion, with the fraction of cold gas reaching about 20 per cent of the cosmic baryon fraction. We infer a strong dependence of the star formation rate on the H2 mass, suggesting a near-universal depletion time-scale of 0.1-1 Gyr in Milky Way-sized haloes (of masses 10(12 )M(circle dot )at z = 0). There is also evidence for a near-universality of the Kennicutt-Schmidt relation across redshifts, with very little dependence on stellar mass, if a constant conversion factor (alpha(co)) of CO luminosity to molecular gas mass is assumed. Combining the atomic and molecular gas observations with the stellar build-up illustrates that galactic mass assembly in Milky Way-sized haloes proceeds from smooth accretion at high redshifts towards becoming merger-dominated at late times (z less than or similar to 0.6). Our results can be used to constrain numerical simulations of the dominant growth and accretion processes of galaxies over cosmic history.
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