5min:
THE SPECTROSCOPY AND STRUCTURE OF THIOPHOSGENE (Cl2CS) IN ITS SINGLET A2 STATE: A HIGH RESOLUTION STUDY OF THE ROTATIONAL STRUCTURE OF THE n rightarrow pi* TRANSITION.

T. FUJIWARA AND E. C. LIM, Department of Chemistry and Centre for Laser and Optical Spectroscopy, The University of Akron, Akron, OH 44325-3601 ; R. H. JUDGE AND J. KODET, Department of Chemistry, University of Wisconsin-Parkside, Kenosha, WI 53141-2000 ; D. C. MOULE, Department of Chemistry, Brock University, St. Catharines, ON L2S 3A1.

BG test - The results of our recent line-by-line rotational analysis of the ring dye laser LIF jet spectrum of the 1A2 leftarrow 1A1 (n~ rightarrow pi*) rovibronic transition of thiophosgene (Cl2CS) will be presented. A total of four bands have been analyzed. An interesting feature of the spectrum is the axis-switching that occurs in the excited state of the 35Cl2CS and 35Cl37ClCS isotopomers. The excited state geometry has been determined from a fit to the least-squares determined rotational constants. The molecule is approximately 24\circ out-of-plane which is lower than that determined from earlier Franck-Condon type analyses of the vibrational structure. We attribut the discrepancy to the one-dimensional nature of the model calculations used in these previous studies.