Transient effects in the microwave optical double resonance of cyclopentanone

Fine structure and hyperfine structure information on the chemically reactive 3n~t state of cyclopentanone is obtained by the low field microwave-optical double resonance (MODOR) technique. The hvperfine structure is interpreted ter.tatively to indicate rtit the nxsnetic z asis lies perpendicular to

## 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

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

## Infrared absorptions of N.&(+) at CO laser frequencies were monirored as an NOZ/N204 sample was subjected to visible radiation from-au argon laser. Double resonance signals corresponding to a two-mole&e scheme involving the 2N0, =r N204 chemical equilibrium have been observed and interpreted.

of T, of NH3 is made by observing the transient effects on the uaaqQ(8,7) transition brought by rapid per+ uges applied to the J= 8. K = 7 microwave transition. The value of T1 obtained in the present experiment is found to be much larger than that of ra.