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WARREN W. HARPER, KEVIN W. WADDELL, RANDALL K. HILLIARD, ROGER S. GREV AND DENNIS J. CLOUTHIER, Department of Chemistry, University of Kentucky, Lexington KY 40506-0055.
Strong S2 - S0 fluorescence has been observed in LIF spectra of jet-cooled silylidene, H2C=Si, produced by fragmentation of tetramethylsilane in a pulsed discharge jet. The experimental ground and excited state molecular structures have been obtained for the first time from rotational analyses of the 000 bands of H2C=Si and D2C=Si. These bands exhibit pronounced rotational level intensity anomalies indicative of nonradiative decay processes. Quantum beats are observed in the fluorescence decay of almost every rotational level in v' = 0 and in most of the higher vibrational levels. Fourier transforms of the beat patterns show line broadening and splittings at small magnetic fields of 10 - 70 Gauss. High quality ab initio studies have been done to locate the interacting electronic states and predict their vibrational frequencies and molecular structures.