Crosssed beam study of the Na(32P32 + N2 quenching process: angular distributions with product state analysis
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[1] I. Hertel,et al. Angular distributions for a model system of nonadiabatic molecular collisions: The quenching of Na*(3p) by H/sub 2/ and D/sub 2/ , 1982 .
[2] I. Hertel,et al. Collisions of excited Na atoms with H2 molecules. I. Ab initio potential energy surfaces and qualitative discussion of the quenching process , 1981 .
[3] D. H. Campbell,et al. Detailed temporal behavior of laser-excited sodium tracer in nitrogen and application to nitrogen number density measurements at low densities. , 1981, Applied optics.
[4] P. Habitz. Potential curves for the ground and excited states of the NaN2 system , 1980 .
[5] J. A. Silver,et al. Crossed beam studies of the dynamics of electronic energy transfer: Quenching of Na(3p 2P3/2) atoms by N2, O2, CO, and NO molecules , 1979 .
[6] I. Hertel,et al. Crossed beam (E–VRT) energy transfer experiment , 1979 .
[7] G. Flynn,et al. Vibrational State Analysis of Electronic-To-Vibrational Energy Transfer Processes , 1977 .
[8] H. Pauly,et al. Experimental differential cross sections for laser-excited sodium in the /sup 2/P/sub 3///sub 2/ state in collision with mercury , 1976 .
[9] J. Barker,et al. Energy‐dependent cross sections for quenching of Li(2p 2P) by several gases , 1976 .
[10] R. Levine,et al. Simple models of vibrational excitation in energy transfer molecular collisions , 1974 .
[11] E. R. Fisher,et al. DE-EXCITATION OF ELECTRONICALLY EXCITED SODIUM BY NITROGEN AND SOME OTHER DIATOMIC MOLECULES. , 1969 .
[12] E. E. Nikitin,et al. Energy transfer in collisions of an excited sodium atom with a nitrogen molecule , 1967 .