Microwave—optical double resonance in the B 3Π0+ excited state of ICl

## 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

Scvcnl mvxowwc wmsmons hz~ve been obscrvrd bctwccn hyprrfine levels m 13'Cl B %l(O+) u = 0 usmg the rcchmqur of mvzrowa\e-optlul double resonance The ICI ~3s cooled lo 3 K III a seeded supersonic e\psnsion. 3llowng c\~mirwrIon of low/ bnes. Values for the ro13Uorwi consrant.Bo = 0 085873(6) cm-', an

IF molecules were prepa.red in a miaowave disckuge by using C3FpI Cheptafluoro-2-iodopropane) or by the direct reaction X2 + F2 \_ The hyperfine structure of the rotational transitions f + 1 -f = 54 of the nirational level u' = 3 and 6 -5 of U' = 4 in the excited electronic state B 3 n e+ of IF has

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

We have reinvestigated the \(0_{u}^{+}\left({ }^{3} P_{0}\right)\) ion-pair state of \(\mathrm{Cl}_{2}\) correlating to \(\mathrm{Cl}^{-}\left({ }^{1} S\right)+\mathrm{Cl}^{+}\left({ }^{3} P_{0}\right)\) by optical-optical double resonance. The \(\mathrm{Cl}_{2}\) molecules in the \(X^{1} \Sigma_{g}

A pump/probe microwave-optical double resonance experiment has been performed on calcium monohydroxide, \(\mathrm{CaOH}\), using the technique of laser ablation/supersonic expansion for production of the compound. Frequencies associated with the three lowest pure rotational transitions in the \((0,0