SHUCHENG XU AND DAVID S. PERRY, Department of Chemistry, University of Akron, Akron, OH 44325.
The rotationally resolved overtone spectrum of the OH ( 1) + CH ( 3) stretch combination band of methanol between 6510 and 6550 cm-1 has been recorded at sub-Doppler resolution by continuous-wave cavity ringdwon spectroscopy (CW-CRDS). Of 572 recorded lines, 358 lines have been assigned by ground state combination differences, including the 21 subbands with J' \textnormal = 0-8 and \textit K' \textnormal = 0-3. The perturbations of \textit E \textit K' \textnormal = -1, -2, and -3 levels have been observed and deperturbations have been carried out. The torsion-rotational constants in the upper state, obtained by fitting the observed spectrum to the Herbst Hamiltonian, are in a reasonable agreement with the predicted values based on the constants of the fundamental bands, 1 and b3. This combination band has fewer perturbations than the fundamental 1, and the coupling matrix elements are smaller, 0.02 to 0.66 cm-1 as compared to 0.35 to 1.6 cm-1.