Microwave-optical double resonance in thioformaldehyde: Further studies of high rovibronic levels of the ground state

## Microwave -optical double resonance experiments have been camed out on the 4; band of the A 'AZ-R 'At system of thioformaldehyde &CS). More than 100 microwave and radiofrequency transitions have been observed in the ii ' A2 excited state. Many of these transitions are magnetically sensitive. So

## Microwave -opdcal double rcsonan~~ studies have been carried out on four rotational levels of Lhe A'A, sue of rhioformaldehyde (H,CS). Several double re~~nancc signals have been observed which involve microwave transirions between levels of the excited state and high rovibronic levels of rhc gr

Pure rotntion.d transitions were observed in the electronically exited state B 3~ o+ of ICI. This state \SIS populated by optical pumping with a single-mode dye laser\_ From the observed spectrum precise rnlues of the quJdrup& h) pertine coupling constat cqQ of iodine and the effective rotational co

Bands of the \(B^{3} \Sigma_{u}^{-}-X^{3} \Sigma_{\mathrm{g}}^{-}\)system of oxygen have been photographed in absorption at high resolution following the flash photolysis of ozonized oxygen. The bands have \(v^{\prime}=0\) and \(v^{\prime \prime}=11\) to 18. Improved molecular constants for the grou