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Published December 1, 2010 | Published
Journal Article Open

Total Molecular Gas Masses of z ~ 3 Lyman- break Galaxies: CO(J = 1 → 0) Emission in MS 1512–cB58 and the Cosmic Eye

Abstract

We report the detection of CO(J = 1 → 0) emission toward the lensed L*_(UV) Lyman-break galaxies (LBGs) MS 1512–cB58 (z = 2.73) and the Cosmic Eye (z = 3.07), using the Expanded Very Large Array. The strength of the CO line emission reveals molecular gas reservoirs with masses of (4.6 ± 1.1) × 10^8 (μ_(L)/32)^(–1) (α_(CO)/0.8) M_☉ and (9.3 ± 1.6) × 10^8 (μ_(L)/28)^(–1) (α_(CO)/0.8) M_☉, respectively. These observations suggest ~30%-40% larger gas reservoirs than previously estimated based on CO(J = 3 → 2) observations due to subthermal excitation of the J = 3 line. These observations also suggest gas mass fractions of 0.46 ± 0.17 and 0.16 ± 0.06. The CO(J = 1 → 0) emission in the Cosmic Eye is slightly resolved on scales of 4."5 ± 1."5, consistent with previous studies of nebular emission lines. This suggests that the molecular gas is associated with the most intensely star-forming regions seen in the ultraviolet (UV). We do not resolve the CO(J = 1 → 0) emission in cB58 at ~2" resolution, but find that the CO(J = 1 → 0) emission is also consistent with the position of the UV-brightest emission peak. The gas masses, gas fractions, moderate CO line excitation, and star formation efficiencies in these galaxies are consistent with what is found in nearby luminous infrared galaxies. These observations thus currently represent the best constraints on the molecular gas content of "ordinary" (i.e., ~L*_(UV)) z ~ 3 star-forming galaxies. Despite comparable star formation rates, the gas properties of these young LBGs seem to be different from the recently identified optical/infrared-selected high-z massive, gas-rich star-forming galaxies, which are more gas-rich and massive, but have lower star formation efficiencies, and presumably trace a different galaxy population.

Additional Information

© 2010 American Astronomical Society. Received 2010 August 31; accepted 2010 October 20; published 2010 November 8. We thank the referee for a helpful report. D.R. acknowledges support from from NASA through Hubble Fellowship grant HST-HF-51235.01 awarded by STScI, operated by AURA for NASA, under contract NAS 5-26555. NRAO is a facility of NSF operated under a cooperative agreement by AUI.

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