An optimized line by line code for plume signature calculations—I: model and data
Author:
Publisher
Elsevier BV
Subject
Spectroscopy,Atomic and Molecular Physics, and Optics,Radiation
Reference40 articles.
1. Accuracy of narrow-band and global models for radiative transfer in H2O, CO2, and H2O–CO2 mixtures at high temperature;Pierrot;JQSRT,1999
2. Ibgui L, Valentin A, Mérienne MF, Jenouvrier A, Lux JP, Le Doucen R, Khalil B, Hartmann JM. An optimized line-by-line code for plume signature calculations. II Comparisons with measurements. JQSRT 2002;74, in press.
3. An analytical model for collisional effects on spectral line shape from the Doppler to the collision regime;Lance;J Chem Phys,1998
4. Confinement narrowing and absorber speed dependent broadening effects on CO lines in the fundamental band perturbed by Xe, Ar, Ne, He, and N2;Henry;JQSRT,1996
5. Effects of velocity averaging on the shapes of absorption lines;Pickett;J Chem Phys,1980
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