Atomic Gas Dominates the Baryonic Mass of Star-forming Galaxies at z ≈ 1.3

Abstract

We present a comparison between the average atomic gas mass, MAtom (including HI and He), the average molecular gas mass, MMol, and the average stellar mass, M*, of a sample of star-forming galaxies at z≈0.75-1.45, to probe the baryonic composition of galaxies in and during the epoch of peak star-formation activity in the universe. The MAtom values of star-forming galaxies in two stellar-mass matched samples at z=0.74-1.25 and z=1.25-1.45, were derived by stacking their HI 21cm signals in the GMRT-CATz1 survey. We find that the baryonic composition of star-forming galaxies at z 1 is dramatically different from that at z≈0. For star-forming galaxies with M*≈1010 M, the contribution of stars to the total baryonic mass, MBaryon, is ≈61\% at z≈0, but only ≈16\% at z≈1.3, while molecular gas constitutes ≈6\% of the baryonic mass at z≈0, and ≈14\% at z≈1.3. Remarkably, we find that atomic gas makes up ≈70\% of MBaryon in star-forming galaxies at z≈1.3. We find that the ratio MAtom/ M* is higher both at z≈1.0 and at z≈1.3 than in the local Universe, with MAtom/ M*≈1.4 at z≈1.0, and ≈4.4 at z≈1.3, compared to its value of ≈0.5 today. Further, we find that the ratio MAtom/ MMol in star-forming galaxies with M* ≈1010 M is ≈2.3 at z≈1.0 and ≈5.0 at z≈1.3. Overall, we find that atomic gas is the dominant component of the baryonic mass of star-forming galaxies at z≈1.3, during the epoch of peak star-formation activity in the universe.

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