Microwave-optical double resonance of the triplet state of cyclopentanone

We have observed microwave-driven inversion and recovery of the populations of the spin SUblcVelS of the chemically reactive, IIT\* triplet state ofcyclopentanone at 77,4.2, and 1.4"K. By analyzing the transients in the phosphorescence, we have extracted the values of the kinetic parameters for the

## 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

Phosphorescence-microwave double resonance (PMDR) techniques are wed and the zero-field (zf) origin of the 0,O band of the phosphorescence of benzene-& in benzene-& a.t 1.6% is determined to be the TY level. This is cuns;tent with a 3B1u assignment for a distorted D2h benzene in its triplet state an

An optically detected electron-electron double rosonnnce (EEDOR) experiment is demonstrated on the triplet state of pyrimidinc by using two concentric microwave heIiees. EEDOR extends the use of opticaL detection methods in olxcrving zero field (z.f.) transitions between z.f. levels thnf are either

Double-resonance spectroscopy is used to investigate the \(v^{\prime}=2\) level of the \(b^{3} \Sigma^{+}\)state and perturbing high vibrational levels \(\left(v^{\prime}=40-42\right)\) of the \(a^{\prime 3} \Sigma^{+}\)state of CO. Single rotational levels in the \(a^{3} \Pi(v=0)\) state are prepar

Conventional microwave and optically detected ESR of l,l-naphthyridine in a durcne host sir@ crystal is reported.