The Nature of Infrared Emission in the Local Group Dwarf Galaxy NGC 6822 as Revealed by Spitzer

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Cannon, John M., Walter, Fabian, Armus, Lee, Bendo, George J., Calzetti, Daniela, Draine, Bruce T., Engelbracht, Charles W., Helou, George, Kennicutt, Robert C., Jr., Leitherer, Claus, Roussel, Hÿl��ne, Bot, Caroline, Buckalew, Brent A., Dale, Daniel A., de Blok, W. J. G., Gordon, Karl D., Hollenbach, David J., Jarrett, Thomas H., Meyer, Martin J., Murphy, Eric J., Sheth, Kartik, & Thornley, Michele D.
2006, The Astrophysical Journal, 652, 1170

We present Spitzer imaging of the metal-deficient (Z~=30% Zsolar) Local Group dwarf galaxy NGC 6822. On spatial scales of ~130 pc, we study the nature of IR, H�+, H I, and radio continuum emission. Nebular emission strength correlates with IR surface brightness; however, roughly half of the IR emission is associated with diffuse regions not luminous at H�+ (as found in previous studies). The global ratio of dust to H I gas in the ISM, while uncertain at the factor of ~2 level, is ~25 times lower than the global values derived for spiral galaxies using similar modeling techniques; localized ratios of dust to H I gas are about a factor of 5 higher than the global value in NGC 6822. There are strong variations (factors of ~10) in the relative ratios of H�+ and IR flux throughout the central disk; the low dust content of NGC 6822 is likely responsible for the different H�+/IR ratios compared to those found in more metal-rich environments. The H�+ and IR emission is associated with high column density (>~1021 cm-2) neutral gas. Increases in IR surface brightness appear to be affected by both increased radiation field strength and increased local gas density. Individual regions and the galaxy as a whole fall within the observed scatter of recent high-resolution studies of the radio-far-IR correlation in nearby spiral galaxies; this is likely the result of depleted radio and far-IR emission strengths in the ISM of this dwarf galaxy.

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