Journal ArticleDOI
Tests of shock chemistry in IC 443G
TLDR
In this article, the authors investigated eight molecular species in the hot dense clump IC 443G, believed to be impacted by the shock wave from the SNR IC 443, and found that fractional abundances fit ND shock models if L is about 6.6 x 10 exp 15 cm.Abstract:
Eight molecular species, in the hot dense clump IC 443G, believed to be impacted by the shock wave from the SNR IC 443, are investigated. The clump consists of two distinct regions, one relatively cool, and one hotter and denser. Region 1 contains CO, HCO(+), HCN, and CN, whose abundances may be explained either by ion-molecule chemistry, or by a D shock of 60-90 km/s, passing through a clump of about 100,000/cu cm. Region 2 gives rise to SiO, CS, SO, and H2CO, and requires an ND shock of 5-15 km/s passing through a region of about 1,000,000/cu cm. Observed fractional abundances fit ND shock models if L is about 6.6 x 10 exp 15 cm. In general, observed line widths vary inversely with derived excitation density, while centroid velocities of all species are essentially identical.read more
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An atomic and molecular database for analysis of submillimetre line observations
TL;DR: In this paper, atomic and molecular data for the transitions of a number of astrophysically interesting species are summarized, in-cluding energy levels, statistical weights, Einstein A-coefficients and collisional rate coefficients.
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A model for atomic and molecular interstellar gas: the meudon pdr code
TL;DR: The revised "Meudon" model of photon-dominated region (PDR) code is presented, and general organization of the code is described down to a level that should allow most observers to use it as an interpretation tool with minimal help from the author.
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Molecular Depletion and Thermal Balance in Dark Cloud Cores
TL;DR: In this paper, the effects of molecular depletion on the thermal balance of well-shielded, quiescent dark cloud cores were analyzed and it was shown that depletion at densities ≥ 104.5 cm-3 can proceed without being evident as an enhanced gas temperature or without selflimiting due to an increase in the dust temperature increasing the desorption rate.
Journal ArticleDOI
Structure and evolution of the envelopes of deeply embedded massive young stars
TL;DR: In this article, the physical structure of the envelopes around a sample of 14 massive young stars is investigated using maps and spectra in sub-millimeter continuum and lines of C^(17)O, CS, C(34)S, and H_2CO.
Journal ArticleDOI
L1544: A Starless dense core with extended inward motions
Mario Tafalla,Diego Mardones,Philip C. Myers,Paola Caselli,Rafael Bachiller,Priscilla J. Benson +5 more
TL;DR: In this article, a multiline study of the dense core L1544 in the Taurus molecular complex was presented, showing that the core is almost isothermal and that the self absorptions are due to very subthermal excitation of dense gas tracers in the outer layers.