Bimolecular Absorption in Atmospheric Gases
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[1] Y. Baranov,et al. Temperature Variations of the Interaction Induced Absorption of CO2 in the ν1, 2ν2 Region: FTIR Measurements and Dimer Contribution , 2002 .
[2] Gregory K. Schenter,et al. Equilibrium Constant for Water Dimerization: Analysis of the Partition Function for a Weakly Bound System , 2002 .
[3] J. Drummond,et al. Cavity ringdown spectroscopy measurements of the infrared water vapor continuum , 2002 .
[4] G. T. Fraser,et al. Investigation of the collision‐induced absorption by O2 near 6.4 μm in pure O2 and O2/N2 mixtures , 2000 .
[5] A. Vigasin. Collision-Induced Absorption in the Region of the O2 Fundamental: Bandshapes and Dimeric Features , 2000 .
[6] J. Bouanich,et al. Collision-induced absorption by , 1999 .
[7] Y. Baranov,et al. Collision-Induced Absorption by CO2in the Region of ν1, 2ν2 , 1999 .
[8] T. Goyette,et al. Rotational state dependence of collision induced line broadening and shift at low temperature , 1999 .
[9] A. Vigasin. DIMERIC ABSORPTION IN THE ATMOSPHERE , 1998 .
[10] Z. Slanina,et al. Molecular Complexes in Earth's, Planetary, Cometary, and Interstellar Atmospheres , 1998 .
[11] F. Huisken,et al. High-resolution CARS spectroscopy of small carbon dioxide clusters: investigation of the CO2 dimer in the Fermi dyad , 1997 .
[12] A. Vigasin. On the nature of collision-induced absorption in gaseous homonuclear diatomics , 1996 .
[13] A. Mckellar. High resolution infrared spectra of H2–Ar, HD–Ar, and D2–Ar van der Waals complexes between 160 and 8620 cm−1 , 1996 .
[14] E. Wishnow,et al. Far‐infrared spectrum of N2 and N2‐noble gas mixtures near 80 K , 1996 .
[15] F. Thibault,et al. Line-mixing effects in the 3v3 band of CO2 perturbed by Ar , 1996 .
[16] Richard H. Tipping,et al. Theory of the water vapor continuum and validations , 1995 .
[17] A. Vigasin,et al. Contribution of bound, metastable and free states of bimolecular complexes to collision-induced intensity of absorption , 1994 .
[18] C. Boulet,et al. Analysis of line mixing in CD 2-0 band in high pressure nitrogen , 1994 .
[19] G. V. Tchlenova,et al. The nature of the absorption bandshape density evolution for the first overtone of CO compressed by N2 , 1993 .
[20] J. Bouanich. Site-site Lennard-Jones potential parameters for N2, O2, H2, CO and CO2 , 1992 .
[21] J. Hartmann,et al. Line mixing and finite duration of collision effects in pure CO2 infrared spectra: Fitting and scaling analysis , 1991 .
[22] G. V. Tchlenova,et al. On the influence of van der waals association on IR absorption band shapes of highly compressed carbon dioxide , 1989 .
[23] A. Mckellar. Infrared spectra of the (N2)2 and N2–Ar van der Waals molecules , 1988 .
[24] D. W. Noid,et al. The effect of resonances on collisional energy transfer , 1987 .
[25] A. Vigasin. On the spectroscopic manifestations of weakly bound complexes in rarefied gases , 1985 .
[26] W. J. Lafferty,et al. Vibrational predissociation, tunneling, and rotational saturation in the HF and DF dimers , 1984 .
[27] A. M. Dunker,et al. Bound atom–diatomic molecule complexes. Anisotropic intermolecular potentials for the hydrogen–rare gas systems , 1978 .
[28] H. Levine. Spectroscopy of Dimers , 1971 .
[29] Joseph O. Hirschfelder,et al. Contribution of Bound, Metastable, and Free Molecules to the Second Virial Coefficient and Some Properties of Double Molecules , 1959 .
[30] K. Smith,et al. The Impact of New Water Vapor Spectroscopy on Satellite Retrievals , 2003 .
[31] A. Vigasin,et al. Subdivision of phase space for anisotropically interacting water molecules , 1997 .
[32] Lothar Frommhold,et al. Collision-Induced Absorption in Gases: Related topics , 1993 .
[33] A. A. Vigasin,et al. Bound, metastable and free states of bimolecular complexes , 1991 .
[34] I. Kovács. High Resolution Molecular Spectroscopy , 1976 .
[35] P. J. Robinson. Unimolecular reactions , 1972 .
[36] W. J. Lafferty,et al. Experimental Investigation of the Self{ and N 2 {broadened Continuum within the 2 Band of Water Vapor , 2022 .