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Journal Articles The Astrophysical Journal Year : 2019

Using [C II] 158 μm Emission from Isolated ISM Phases as a Star Formation Rate Indicator

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Jessica Sutter
  • Function : Author
Daniel A. Dale
  • Function : Author
Kevin V. Croxall
  • Function : Author
Eric W. Pelligrini
  • Function : Author
J. D. T. Smith
  • Function : Author
Philip N. Appleton
  • Function : Author
Pedro Beirão
  • Function : Author
Alberto D. Bolatto
  • Function : Author
Daniela Calzetti
  • Function : Author
Alison Crocker
  • Function : Author
Ilse de Looze
  • Function : Author
Bruce Draine
  • Function : Author
Brent A. Groves
  • Function : Author
George Helou
  • Function : Author
Rodrigo Herrera-Camus
  • Function : Author
Leslie K. Hunt
  • Function : Author
Robert C. Kennicutt
  • Function : Author
Mark G. Wolfire
  • Function : Author

Abstract

The brightest observed emission line in many star-forming galaxies is the [{{C}} {{II}}] 158 μm line, making it detectable up to z ∼ 7. In order to better understand and quantify the [{{C}} {{II}}] emission as a tracer of star formation, the theoretical ratio between the [{{N}} {{II}}] 205 μm emission and the [{{C}} {{II}}] 158 μm emission has been employed to empirically determine the fraction of [{{C}} {{II}}] emission that originates from the ionized and neutral phases of the interstellar medium (ISM). Sub-kiloparsec measurements of the [{{C}} {{II}}] 158 μm and [{{N}} {{II}}] 205 μm lines in nearby galaxies have recently become available as part of the Key Insights in Nearby Galaxies: a Far Infrared Survey with Herschel (KINGFISH) and Beyond the Peak programs. With the information from these two far-infrared lines along with the multi-wavelength suite of KINGFISH data, a calibration of the [{{C}} {{II}}] emission line as a star formation rate (SFR) indicator and a better understanding of the [{{C}} {{II}}] deficit are pursued. [{{C}} {{II}}] emission is also compared to polycyclic aromatic hydrocarbon (PAH) emission in these regions to compare photoelectric heating from PAH molecules to cooling by [{{C}} {{II}}] in the neutral and ionized phases of the ISM. We find that the [{{C}} {{II}}] emission originating in the neutral phase of the ISM does not exhibit a deficit with respect to the infrared luminosity and is therefore preferred over the [{{C}} {{II}}] emission originating in the ionized phase of the ISM as an SFR indicator for the normal star-forming galaxies included in this sample.

Dates and versions

insu-03746190 , version 1 (05-08-2022)

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Cite

Jessica Sutter, Daniel A. Dale, Kevin V. Croxall, Eric W. Pelligrini, J. D. T. Smith, et al.. Using [C II] 158 μm Emission from Isolated ISM Phases as a Star Formation Rate Indicator. The Astrophysical Journal, 2019, 886, ⟨10.3847/1538-4357/ab4da5⟩. ⟨insu-03746190⟩
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