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PRUSSIC

Matus Rybak, Jacqueline Hodge, T. R. Greve, Dominik A. Riechers, Isabella Lamperti, Joshiwa van Marrewijk, Fabian Walter, Jeff Wagg, P. van der Werf

2022Astronomy and Astrophysics18 citationsDOIOpen Access PDF

Abstract

Dusty star-forming galaxies (DSFGs) at redshift z ≥ 1 are among the most vigorously star-forming galaxies in the Universe. However, their dense (≥10 5 cm −3 ) gas phase – typically traced by HCN(1–0) – remains almost entirely unexplored: only two DSFGs have been detected in HCN(1–0) to date. We present the results of a Karl G. Jansky Very Large Array survey of the J = 1–0 transition of HCN, HCO + , and HNC(1–0) in six strongly lensed DSFGs at z = 2.5 − 3.3, effectively doubling the number of DSFGs with deep observations of these lines. We detect HCN(1–0) emission in one source (J1202+5354, 4.6 σ ), with a tentative HCO + (1–0) detection in another (J1609+6045, 3.3 σ ). Spectral stacking yields strict upper limits on the HCN/FIR (≤3.6 × 10 −4 ) and HCN/CO(1–0) ratios (≤0.045). The inferred HCN/FIR ratios (a proxy for the star-formation efficiency) are consistent with those in z ∼ 0 far-infrared-luminous starbursts. However, the HCN/CO ratios – a proxy for the dense-gas fraction – are a factor of a few lower than suggested by the two previous DSFG detections. Our results imply that most DSFGs have low dense-gas fractions. A comparison with theoretical models of star-forming galaxies indicates that the bulk of gas in DSFGs is at lower densities (≈10 2 cm −3 ), similar to ‘normal’ star-forming galaxies, rather than ultraluminous starbursts.

Topics & Concepts

PhysicsAstrophysicsAstronomyAstrophysics and Star Formation StudiesThemes in Literature AnalysisGalaxies: Formation, Evolution, Phenomena
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