Journal
ASTROPHYSICAL JOURNAL LETTERS
Volume 749, Issue 2, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.1088/2041-8205/749/2/L21
Keywords
dust, extinction; H II regions; ISM: individual objects (W3A); photon-dominated region (PDR)
Categories
Funding
- NASA [8500-98-014]
- advanced-ERC from the European Research Council [246976]
- Dutch Astrochemistry Network
- Dutch Science Organization, NWO
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The massive star-forming region W3 was observed with the faint object infrared camera for the SOFIA telescope as part of the Short Science program. The 6.4, 6.6, 7.7, 19.7, 24.2, 31.5, and 37.1 mu m bandpasses were used to observe the emission of polycyclic aromatic hydrocarbon (PAH) molecules, very small grains, and big grains. Optical depth and color temperature maps of W3A show that IRS2 has blown a bubble devoid of gas and dust of similar to 0.05 pc radius. It is embedded in a dusty shell of ionized gas that contributes 40% of the total 24 mu m emission of W3A. This dust component is mostly heated by far-ultraviolet, rather than trapped Ly alpha photons. This shell is itself surrounded by a thin (similar to 0.01 pc) photodissociation region where PAHs show intense emission. The infrared spectral energy distribution (SED) of three different zones located at 8 '', 20 '', and 25 '' from IRS2 shows that the peak of the SED shifts toward longer wavelengths, when moving away from the star. Adopting the stellar radiation field for these three positions, DUSTEM model fits to these SEDs yield a dust-to-gas mass ratio in the ionized gas similar to that in the diffuse interstellar medium (ISM). However, the ratio of the IR-to-UV opacity of the dust in the ionized shell is increased by a factor of similar or equal to 3 compared to the diffuse ISM.
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