A computer program for fast non-LTE analysis of interstellar line spectra
F. F. S. van der Tak,F. F. S. van der Tak,John H. Black,Fredrik L. Schöier,D. J. Jansen,E. F. van Dishoeck +5 more
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TLDR
In this paper, the authors present a computer program to calculate the intensities of atomic and molecular lines produced in a uniform medium, based on statistical equilibrium calculations involving collisional and radiative processes and including radiation from background sources.Abstract:
The large quantity and high quality of modern radio and infrared line observations require efficient modeling techniques to infer physical and chemical parameters such as temperature, density, and molecular abundances. We present a computer program to calculate the intensities of atomic and molecular lines produced in a uniform medium, based on statistical equilibrium calculations involving collisional and radiative processes and including radiation from background sources. Optical depth effects are treated with an escape probability method. The program is available on the World Wide Web at http://www.sron.rug.nl/~vdtak/radex/index.shtml . The program makes use of molecular data files maintained in the Leiden Atomic and Molecular Database (LAMDA), which will continue to be improved and expanded. The performance of the program is compared with more approximate and with more sophisticated methods. An Appendix provides diagnostic plots to estimate physical parameters from line intensity ratios of commonly observed molecules. This program should form an important tool in analyzing observations from current and future radio and infrared telescopes. Note: Accepted by AA 18 A4 pages, 11 figures;read more
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The CN/C15 N isotopic ratio towards dark clouds
TL;DR: In this paper, the authors derived the column density ratio of C$^{15}$N over $−13}$CN towards the same clouds, and obtained the CN/C$−15$N isotopic ratios, which were found to be $500\pm75$ for both L1544 and L1498.
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HCN-to-HNC intensity ratio: A new chemical thermometer for the molecular ISM
TL;DR: In this paper, the I (HCN)-to-I (HNC) intensity ratio of the 1-0 lines of the Integral Shape Filament (ISF) was used as a direct probe of the gas kinetic temperature in the molecular ISM.
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The Herschel HIFI water line survey in the low-mass proto-stellar outflow L1448
G. Santangelo,Brunella Nisini,T. Giannini,Simone Antoniucci,M. Vasta,Claudio Codella,A. Lorenzani,M. Tafalla,René Liseau,E. F. van Dishoeck,Lars E. Kristensen +10 more
TL;DR: In this paper, the authors used a large velocity gradient (LVG) analysis to derive the main physical parameters of the emitting regions, namely n(H-2), T-kin, N(H2O) and emitting region size.
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Chemical stratification in the Orion Bar: JCMT Spectral Legacy Survey observations
M. H. D. van der Wiel,F. F. S. van der Tak,Volker Ossenkopf,M. Spaans,H. Roberts,Gary A. Fuller,Rene Plume +6 more
TL;DR: In this article, the Orion Bar was studied and a simple PDR model was proposed to reproduce the observed stratification, although the SO emission was predicted to peak much deeper into the cloud than observed while the H(2)CO peak was predicted closer to the ionization front than observed.
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UV-driven chemistry in simulations of the interstellar medium. I. Post-processed chemistry with the Meudon PDR code
François Levrier,Franck Petit,Patrick Hennebelle,Pierre Lesaffre,Maryvonne Gerin,Edith Falgarone +5 more
TL;DR: In this article, the effect of uniform density on the line-of-sight in PDR chemistry models, compared to a more realistic distribution for which total gas densities may well vary by several orders of magnitude, is estimated.
References
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