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Post Info TOPIC: M17 SWex


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M17 SWex
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Title: The ionised and hot gas in M17 SW: SOFIA/GREAT THz observations of [C II] and 12CO J=13-12
Authors: H. Wiesemeyer (1), V. Ossenkopf (2), J. Stutzki (2), R. Guesten (1), R. Simon (2), H.-W. Huebers (3 and 4), O. Ricken (2 and 1), G. Sandell (5) ((1) MPIfR, Bonn, Germany, (2) I. Phys. Inst. der Uni. zu Koln, Germany, (3) Deutsches Zentrum fur Luft- und Raumfahrt, Institut für Planetenforschung, Berlin, Germany, (4) Institut fur Optik und Atomare Physik, Technische Universitat Berlin, Berlin, Germany, (5) SOFIA-USRA, NASA Ames Research Center, CA, USA)

With new THz maps that cover an area of ~3.3x2.1 pc^2 we probe the spatial distribution and association of the ionised, neutral and molecular gas components in the M17 SW nebula. We used the dual band receiver GREAT on board the SOFIA airborne telescope to obtain a 5'.7x3'.7 map of the 12CO J=13-12 transition and the [C II] 158 um fine-structure line in M17 SW and compare the spectroscopically resolved maps with corresponding ground-based data for low- and mid-J CO and [C I] emission. For the first time SOFIA/GREAT allow us to compare velocity-resolved [C II] emission maps with molecular tracers. We see a large part of the [C II] emission, both spatially and in velocity, that is completely non-associated with the other tracers of photon-dominated regions (PDR). Only particular narrow channel maps of the velocity-resolved [C II] spectra show a correlation between the different gas components, which is not seen at all in the integrated intensity maps. These show different morphology in all lines but give hardly any information on the origin of the emission. The [C II] 158 um emission extends for more than 2 pc into the M17 SW molecular cloud and its line profile covers a broader velocity range than the 12CO J=13-12 and [C I] emissions, which we interpret as several clumps and layers of ionised carbon gas within the telescope beam. The high-J CO emission emerges from a dense region between the ionised and neutral carbon emissions, indicating the presence of high-density clumps that allow the fast formation of hot CO in the irradiated complex structure of M17 SW. The [C II] observations in the southern PDR cannot be explained with stratified nor clumpy PDR models.

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Newborn stars discovered in dark cosmic cloud

A wave of massive star formation appears poised to begin within a mysterious, dark cloud in the Milky Way. NASA's Spitzer Space Telescope has revealed a secluded birthplace for stars within a wispy, dark cloud named M17 SWex. The dark cloud is part of the larger, parent nebula known as M17, a vast region of our galaxy with a bright, central star cluster.
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Spitzer Spies a 'Flying Dragon' Smouldering with Secret Star Birth

NASA's Spitzer Space Telescope has revealed a cosmic cloud shaped like a flying dragon that has a secret burning behind its dark scales.
Though appearances deceive, stars are forming in this cloud about as fast as in a neighbouring, dazzling nebula illuminated by giant stars. But no similar stellar behemoths have yet emerged to set the dragon's dusty innards aglow.

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