A Survey of Atomic Carbon [C I] in High-redshift Main-Sequence Galaxies

F. Valentino (1; 2); G. E. Magdis (1; 2; 3); E. Daddi (4); D.; Liu (5); M. Aravena (6); F. Bournaud (4); A. Cibinel (7); D. Cormier (4); M.; E. Dickinson (8); Y. Gao (9); S. Jin (4; 10); S. Juneau (8); J. Kartaltepe; (11); M. Lee (12); S. C. Madden (4); A. Puglisi (4); D. Sanders (13); J.; Silverman (14) ((1) Dawn Cosmic Center; (2) Dark Cosmology Centre; (3); National Observatory of Athens; (4) Service d'Astrophysique; CEA Saclay; (5); Max Planck Institute for Astronomy; Heidelberg; (6) Universidad Diego; Portales; (7) University of Sussex; (8) National Optical Astronomy; Observatory; (9) Purple Mountain Observatory; (10) Nanjing University; (11); Rochester Institute of Technology; (12) Max-Planck-Institut f\"ur; Radioastronomie; Bonn; (13) Institute for Astronomy; Honolulu; (14) Kavli; Institute; Tokyo)

arXiv:1810.11029·astro-ph.GA·December 19, 2018

A Survey of Atomic Carbon [C I] in High-redshift Main-Sequence Galaxies

F. Valentino (1, 2), G. E. Magdis (1, 2, 3), E. Daddi (4), D., Liu (5), M. Aravena (6), F. Bournaud (4), A. Cibinel (7), D. Cormier (4), M., E. Dickinson (8), Y. Gao (9), S. Jin (4, 10), S. Juneau (8), J. Kartaltepe, (11), M. Lee (12), S. C. Madden (4), A. Puglisi (4)

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TL;DR

This survey investigates atomic carbon [C I] in high-redshift main-sequence galaxies, revealing its correlation with infrared luminosity and its potential as a molecular gas tracer, with variations across galaxy types.

Contribution

First ALMA survey of [C I] in z~1.2 galaxies, comparing its properties with local and high-redshift systems, and analyzing its abundance and relation to other gas tracers.

Findings

01

[C I] luminosity correlates with infrared luminosity similarly to CO.

02

Main-sequence galaxies have higher [C I]/IR ratios than starbursts.

03

[C I] is a reliable tracer of molecular gas mass across galaxy types.

Abstract

We present the first results of an ALMA survey of the lower fine structure line of atomic carbon [C I] $(^{3} P_{1} -^{3} P_{0})$ in far infrared-selected galaxies on the main sequence at $z \sim 1.2$ in the COSMOS field. We compare our sample with a comprehensive compilation of data available in the literature for local and high-redshift starbursting systems and quasars. We show that the [C I]( $^{3} P_{1}$ $\to$ $^{3} P_{0}$ ) luminosity correlates on global scales with the infrared luminosity $L_{IR}$ similarly to low- $J$ CO transitions. We report a systematic variation of $L_{[C I]^{3} P_{1} -^{3} P_{0}}^{'}$ / $L_{IR}$ as a function of the galaxy type, with the ratio being larger for main-sequence galaxies than for starbursts and sub-millimeter galaxies at fixed $L_{IR}$ . The $L_{[C I]^{3} P_{1} -^{3} P_{0}}^{'}$ / $L_{CO (2 - 1)}^{'}$ and $M_{[CI]}$ / $M_{dust}$ mass ratios are similar…

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