MIGHTEE-H i: the MHi - M∗ relation of massive galaxies and the Hi mass function at 0.25 < z < 0.5
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Date
2025
Journal Title
Journal ISSN
Volume Title
Publisher
Oxford University Press
Abstract
The relationship between the already formed stellar mass in a galaxy and the gas reservoir of neutral atomic hydrogen, is a key element in our understanding of how gas is turned into stars in galaxy haloes. In this paper, we measure the relation based on a stellar-mass selected sample at <![CDATA[$0.25 M and the MeerKAT International GHz Tiered Extragalactic Exploration-H i Data Release 1 spectral data. Using a powerful Bayesian stacking technique, for the first time we are also able to measure the underlying bivariate distribution of H i mass and stellar mass of galaxies with 109.5]], finding that an asymmetric underlying H i distribution is strongly preferred by our complete samples. We define the concepts of the average of the logarithmic H i mass, and the logarithmic average of the H i mass, and find that the difference between and can be as large as 0.5 dex for the preferred asymmetric H i distribution. We observe shallow slopes in the underlying scaling relations, suggesting the presence of an upper H i mass limit beyond which a galaxy can no longer retain further H i gas. From our bivariate distribution we also infer the H i mass function at this redshift and find tentative evidence for a decrease of 2-10 times in the comoving space density of the most H i massive galaxies up to.
Description
Keywords
Galaxies: fundamental parameters, Methods: statistical, Radio lines: galaxies, Stellar mass of galaxies, Bivariate distribution
Citation
Pan, H., Jarvis, M.J., Heywood, I., Yasin, T., Maddox, N., Santos, M.G., Baes, M., Ponomareva, A.A. and Rajohnson, S.H., 2025. MIGHTEE-H i: the MH i-M* relation of massive galaxies and the H i mass function at 0.25< z< 0.5. Monthly Notices of the Royal Astronomical Society, 544(2), pp.1710-1731.