Isotope Effects on Franck—Condon Factors. VII. Vibrational Intensity Distribution in the H2 Lyman, H2 Werner, O2 Schumann—Runge, N2 First Positive, N2 Vegard—Kaplan, and LiH (A—X) Systems Based on RKR Potentials
Author:
Publisher
AIP Publishing
Subject
Physical and Theoretical Chemistry,General Physics and Astronomy
Link
http://aip.scitation.org/doi/pdf/10.1063/1.1841099
Reference35 articles.
1. Isotope Effects on Franck—Condon Factors. VI. Pressure‐Broadened Absorption Intensities of the Schumann—Runge Bands of 16O2 and 18O2
2. Isotope Effects on Franck—Condon Factors. VI. Pressure‐Broadened Absorption Intensities of the Schumann—Runge Bands of 16O2 and 18O2
3. Isotope Effects on Franck—Condon Factors. VI. Pressure‐Broadened Absorption Intensities of the Schumann—Runge Bands of 16O2 and 18O2
4. Isotope Effects on Franck—Condon Factors. VI. Pressure‐Broadened Absorption Intensities of the Schumann—Runge Bands of 16O2 and 18O2
5. Isotope Effects on Franck—Condon Factors. VI. Pressure‐Broadened Absorption Intensities of the Schumann—Runge Bands of 16O2 and 18O2
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2. High resolution absorption cross-sections and band oscillator strengths of the Schumann-Runge absorption bands of isotopic oxygen, 18O2, at 79 K;Planetary and Space Science;1988-11
3. The mechanism of N2(B3Πg) deactivation by N2;Chemical Physics Letters;1988-05
4. Oscillator strengths for the Schumann-Runge bands of 18O2;Journal of Quantitative Spectroscopy and Radiative Transfer;1987-03
5. Probabilities for electronic transitions of molecular systems of high-temperature air components—I. The schumann-runge system of the O2-molecule and the first positive system of the N2-molecule;Journal of Quantitative Spectroscopy and Radiative Transfer;1980-07
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