SIMBAD references

2017ApJ...838..136G - Astrophys. J., 838, 136-136 (2017/April-1)

High dense gas fraction in a gas-rich star-forming galaxy at z = 1.2.


Abstract (from CDS):

We report observations of dense molecular gas in the star-forming galaxy EGS 13004291 (z = 1.197) using the Plateau de Bure Interferometer. We tentatively detect HCN and HNC J=2→1 emission when stacked together at 4σsignificance, yielding line luminosities of L_HCN(J=2→1)_^′^=(9±3)×109 K km s–1 pc2 and L_HNC(J=2→1)_^′^=(5±2)×109 K km s–1 pc2, respectively. We also set 3σ upper limits of <7-8 x109 K km s–1 pc2 on the HCO+(J=2→1), H2O(313→220), and HC3N(J = 20 - 19) line luminosities. We serendipitously detect CO emission from two sources at z∼1.8 and z∼3.2 in the same field of view. We also detect CO(J=2→1) emission in EGS 13004291, showing that the excitation in the previously detected CO(J=3→2) line is subthermal (r32=0.65±0.15). We find a line luminosity ratio of LHCN^′/LCO_^′^ = 0.17 ± 0.07, as an indicator of the dense gas fraction. This is consistent with the median ratio observed in z 1 galaxies (LHCN^′/LCO_^′^ = 0.16 ± 0.07) and nearby ULIRGs (LHCN^′/LCO_^′^ = 0.13 ± 0.03), but higher than that in local spirals (LHCN^′/LCO_^′^ = 0.04 ± 0.02). Although EGS 13004291 lies significantly above the galaxy main sequence at z∼1, we do not find an elevated star formation efficiency (traced by LFIR/LCO^′^) as in local starbursts, but a value consistent with main-sequence galaxies. The enhanced dense gas fraction, the subthermal gas excitation, and the lower than expected star formation efficiency of the dense molecular gas in EGS 13004291 suggest that different star formation properties may prevail in high-z starbursts. Thus, using LFIR/LCO^′^ as a simple recipe to measure the star formation efficiency may be insufficient to describe the underlying mechanisms in dense star-forming environments inside the large gas reservoirs.

Abstract Copyright: © 2017. The American Astronomical Society. All rights reserved.

Journal keyword(s): galaxies: evolution - galaxies: high-redshift - galaxies: starburst - galaxies: star formation - ISM: molecules - ISM: molecules

Simbad objects: 13

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