期刊
ASTRONOMY & ASTROPHYSICS
卷 543, 期 -, 页码 -出版社
EDP SCIENCES S A
DOI: 10.1051/0004-6361/201118740
关键词
dust, extinction; ISM: clouds; solar neighborhood
资金
- Centre National d'Etudes Spatiales (CNES)
- Japan Society for the Promotion of Science (JSPS) [22700785, 22340040]
- Grants-in-Aid for Scientific Research [23403001, 22340040, 24650518, 22700785, 22244014, 22540250] Funding Source: KAKEN
Context. When modeling infrared or gamma-ray data as a linear combination of observed gas tracers, excess emission has been detected compared to expectations from known neutral and molecular gas traced by HI and CO measurements, respectively. This excess might correspond to additional gas component. This so-called dark gas (DG) has been observed in our Galaxy, as well as the Magellanic Clouds. Aims. For the first time, we investigate the correlation between visible extinction (A(V)) data and gas tracers on large scales in the solar neighborhood, to detect DG and to verify our compatibility with previous studies. Methods. Our work focuses on both the solar neighborhood (|b| > 10 degrees), and the inner and outer Galaxy, as well as on four individual regions: Taurus, Orion, Cepheus-Polaris, and Aquila-Ophiuchus. Thanks to the recent production of an all-sky A(V) map, we first perform the correlation between A(V) and both HI and CO emission over the most diffuse regions (with low-to-intermediate gas column densities), to derive the optimal (A(V)/N-H)(ref) ratio. We then iterate the analysis over the entire regions (including low and high gas column densities) to estimate the CO-to-H-2 conversion factor, as well as the DG mass fraction. Results. The average extinction to gas column-density ratio in the solar neighborhood is found to be (A(V)/N-H) ref = 6.53 x 10(-22) mag cm(2), with significant differences between the inner and outer Galaxy, of about 60%. We derive an average value of the CO-to-H-2 conversion factor of X-CO = 1.67 x 10(20) H-2 cm(-2)/(K km s(-1)), with significant variations between nearby clouds. In the solar neighborhood, the gas mass in the dark component is found to be 19% relative to that in the atomic component and 164% relative to the one traced by CO. These results are compatible with a recent analysis of Planck data within the uncertainties of our measurements. We estimate the ratio of dark gas to total molecular gas to be 0.62 in the solar neighborhood. The HI-to-H-2 and H-2-to-CO transitions appear for A(V) similar or equal to 0.2 mag and A(V) similar or equal to 1.5 mag, respectively, in agreement with theoretical models of dark-H-2 gas.
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