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Published August 20, 2017 | Submitted + Published
Journal Article Open

The Origins of [C II] Emission in Local Star-forming Galaxies

Croxall, K. V. ORCID icon
Smith, J. D. ORCID icon
Pellegrini, E.
Groves, B. ORCID icon
Bolatto, A. ORCID icon
Herrera-Camus, R. ORCID icon
Sandstrom, K. M. ORCID icon
Draine, B. ORCID icon
Wolfire, M. G. ORCID icon
Armus, L. ORCID icon
Boquien, M. ORCID icon
Brandl, B.
Dale, D. ORCID icon
Galametz, M. ORCID icon
Hunt, L. ORCID icon
Kennicutt, R. ORCID icon
Kreckel, K. ORCID icon
Rigopoulou, D. ORCID icon
van der Werf, P. ORCID icon
Wilson, C. ORCID icon

Abstract

The [C II] 158 μm fine-structure line is the brightest emission line observed in local star-forming galaxies. As a major coolant of the gas-phase interstellar medium, [C II] balances the heating, including that due to far-ultraviolet photons, which heat the gas via the photoelectric effect. However, the origin of [C II] emission remains unclear because C+ can be found in multiple phases of the interstellar medium. Here we measure the fractions of [C II] emission originating in the ionized and neutral gas phases of a sample of nearby galaxies. We use the [N II] 205 μm fine-structure line to trace the ionized medium, thereby eliminating the strong density dependence that exists in the ratio of [C II]/[N II] 122 μm. Using the FIR [C II] and [N II] emission detected by the KINGFISH (Key Insights on Nearby Galaxies: a Far- Infrared Survey with Herschel) and Beyond the Peak Herschel programs, we show that 60%–80% of [C II] emission originates from neutral gas. We find that the fraction of [C II] originating in the neutral medium has a weak dependence on dust temperature and the surface density of star formation, and has a stronger dependence on the gas-phase metallicity. In metal-rich environments, the relatively cooler ionized gas makes substantially larger contributions to total [C II] emission than at low abundance, contrary to prior expectations. Approximate calibrations of this metallicity trend are provided.

Additional Information

© 2017 The American Astronomical Society. Received 2017 June 2; revised 2017 July 3; accepted 2017 July 6; published 2017 August 16. K.V.C. would like to thank T. Diaz-Santos, G. Accurso, R. Pogge, and P. Goldsmith for their useful discussions regarding this work. K.V.C. acknowledges support from the Deutsche Forschungsgemeinschaft Priority Program ISM-SPP 1573 and the MPIA, and thanks the KINGFISH & BTP teams for their support. J.D.S. acknowledges visiting support from the Alexander von Humboldt Foundation and the MPIA. B.G. acknowledges the support of the Australian Research Council via a Future Fellowship (FT140101202). A.D.B. acknowledges partial support from NSF-AST0955836 and 1412419. B.T.D. acknowledges partial support from NSF-AST1408723. M.B. was supported by MINEDUC-UA project, code ANT 1655. Beyond the Peak research has been supported by a NASA/JPL grant (RSA 1427378). HIPE is a joint development by the Herschel Science Ground Segment Consortium, consisting of ESA, the NASA Herschel Science Center, and the HIFI, PACS, and SPIRE consortia. This work is based on observations made with Herschel, a ESA Cornerstone Mission with significant participation by NASA. Support for this work was provided by NASA through an award issued by JPL/Caltech. This research has made use of the NASA/IPAC Extragalactic Database which is operated by JPL/Caltech, under contract with NASA.

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Published - Croxall_2017_ApJ_845_96.pdf

Submitted - 1707.04435.pdf

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August 21, 2023
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