Determination of thermal relaxation times by the impact tube method study of vibration-translation and vibration-vibration exchanges in CO2, N2O and CH4 pure or mixed with other gases
Author:
Publisher
Elsevier BV
Subject
Inorganic Chemistry
Reference28 articles.
1. Determination of thermal relaxation times of gases by the impact tube method — measurements for the (0110) vibration of pure CO2, and CO2 mixed with other gases
2. Rate Equations for the Vibrational Relaxation of CO2 – N2 or CO2− Noble Gas Mixtures— Application to Comparison of Spectrophone Data with Results from Other Experimental Techniques
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1. CH4 nonlocal thermodynamic equilibrium in the atmospheres of the giant planets;Icarus;1990-06
2. Are vibrational relaxation times really constant? I. The vibrational relaxation of N2O;Chemical Physics;1986-04
3. Kinetic models for the CH4(ν3) deactivation in CH4-CH4 collisions. Interpretation of experimental results;Chemical Physics Letters;1983-10
4. Vibrational-translational/rotational and vibrational-vibrational processes in methane/inert-gas mixtures: Optoacoustic phase measurements;Chemical Physics;1983-01
5. Vibrational relaxation of N2O by the spectrophone method;Physica B+C;1981-06
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