Electron density distribution in HII regions in IC10

Abstract

We present the [OIII]52μm map of the dwarf galaxy IC10, obtained with the Field-Imaging Far-Infrared Line Spectrometer (FIFI-LS) on board the Stratospheric Observatory for Infrared Astronomy (SOFIA). We combine the [OIII]52μm map with Herschel and Spitzer observations, to estimate the electron density distribution of the brightest HII regions of IC10. We find that the line ratio [OIII]88μm/[OIII]52μm gives electron density (ne) values (neOIII) that cover a broad range, while the ne values obtained using the line ratio [SIII]33μm/[SIII]18μm (neSIII) are all similar within the uncertainties. neOIII is similar to neSIII for the M1, M2 and A1 regions, and it is higher than neSIII for the two regions, A2 and M1b, which are the brightest in the 24μm continuum emission. These results suggest that for these regions the two ions, O++ and S++, trace two different ionised gas components, and that the properties of the ionised gas component traced by the O++ ion are more sensitive to the local physical conditions. In fact, while the gas layer traced by [SIII] does not keep track of the characteristics of the radiation field, the neOIII, correlates with the star formation rate (SFR), the dust temperature and the 24μm. Therefore, neOIII is an indicator of the evolutionary stage of the HII region and the radiation field, with higher neOIII, found in younger SF regions and in more energetic environments.

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