dc.creator Chan, W. H. en_US dc.creator Liu, D. S. en_US dc.creator Brand, J. C. D. en_US dc.date.accessioned 2006-06-15T17:01:31Z dc.date.available 2006-06-15T17:01:31Z dc.date.issued 1973 en_US dc.identifier 1973-C-01 en_US dc.identifier.uri http://hdl.handle.net/1811/15917 dc.description Author Institution: Department of Chemistry, University of Western Ontario London, en_US dc.description.abstract The interaction between levels of an electronically-excited singlet state and those of a neighboring triplet state establishes a possible channel for intersystem crossing. An interaction of this type can be detected experimentally in the vapor state by observing the effect of an external Zeeman field on individual rotational lines of the singlet-singlet absorption which carries the oscillator strength in transitions from the ground state. Matrix elements of the Hamiltonian for coupled singlet and triplet states of an asymmetric rotor in an external field have been derived, and the results are used in analyses of magnetically sensitive perturbations observed in the $^{1}A_{2}{\leftarrow}^{1}A_{1}$ system of $CH_{2}O$ and the $^{1}A^{\prime\prime}{\leftarrow} ^{1}{A^{\prime}}$ band system of $CH_{2}\cdot CHO$ (propynal). Line profiles in the Zeeman field are calculated and the results used to obtain an improved understanding of magnetic rotation spectra induced in singlet-singlet transitions by singlet-triplet mixing. en_US dc.format.extent 182044 bytes dc.format.mimetype image/jpeg dc.language.iso English en_US dc.publisher Ohio State University en_US dc.title USE OF THE ZEEMAN EFFECT IN ANALYSIS OF SINGLET-TRIPLET INTERACTIONS IN ROTATING ASYMMETRIC MOLECULES en_US dc.type article en_US
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