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Herschel Galactic plane survey of ionized gas traced by [NII]
Date
2015-01-01
Author
Yıldız, Umut
Goldsmith, Paul
Pineda, Jorge
Langer, William
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Far infrared and sub-/millimeter atomic & ionic fine structure and molecular rotational lines are powerful tracers of star formation on both Galactic and extragalactic scales. Although CO lines trace cool to moderately warm molecular gas, ionized carbon [CII] produces the strongest lines, which arise from almost all reasonably warm (T>50 K) parts of the ISM. However, [CII] alone cannot distinguish highly ionized gas from weakly ionized gas. [NII] plays a significant role in star formation as it is produced only in ionized regions; in [HII] regions as well as diffuse ionized gas. The ionization potential of nitrogen (14.5 eV) is greater than that of hydrogen (13.6 eV), therefore the ionized nitrogen [NII] lines reflect the effects of massive stars, with possible enhancement from X-ray and shock heating from the surroundings. Two far-infrared 122 um and 205 um [NII] fine structure spectral lines are targeted via Photodetector Array Camera and Spectrometer (PACS) onboard Herschel Space Observatory. The sample consists of 149 line-of-sight (LOS) positions in the Galactic plane. These positions overlap with the [CII] 158 um observations obtained with the GOT C+ survey. With a reasonable assumption that the emission from both 122 um and 205 um lines originate in the same gas; [NII] 122/205 um line ratio indicates the a good measure of the electron density of each of the LOS positions. [NII] detections are mainly toward the Galactic center direction and the [NII] electron densities are found between 7-50 cm^-3, which is enhanced WIM (Warm Ionized Medium). WIM densities are expected to be much lower (~1 cm-3), therefore non-detections toward the opposite side of the Galactic Center shows abundant of this gas. The pixel to pixel variation of the emission within a single Herschel pointing is relatively small, which is interpreted as the [NII] emission comes from an extended gas. It is important to quantify what fraction of [CII] emission arises in the ionized gas. Thus, with the present work of [NII] observations, it will be possible to resolve the different parts of the ISM leading to determine the total mass of the ISM.
URI
https://ui.adsabs.harvard.edu/abs/2015AAS...22545109Y/abstract
https://hdl.handle.net/11511/115811
Journal
American Astronomical Society, AAS Meeting #225
Collections
Department of Physics, Article
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BibTeX
U. Yıldız, P. Goldsmith, J. Pineda, and W. Langer, “Herschel Galactic plane survey of ionized gas traced by [NII],”
American Astronomical Society, AAS Meeting #225
, vol. 225, no. 451, pp. 1–1, 2015, Accessed: 00, 2025. [Online]. Available: https://ui.adsabs.harvard.edu/abs/2015AAS...22545109Y/abstract.
