Detection of the 1s3d 1Σ0+ × 3Σ0− electric-field level crossing of He I

The 4po K 'E+-~so B %+(0-O) and 4pn L 'Il-3so B 'X+ (O-O) bands of carbon monoxide were re-cxamined by the optogalvanic method. We found that the intensity ofthe rotational lines was proportional to the laser power up to about lo9 W cm2 and that the band profiles were affected by the Cuncoupling int

The c~ern~~~r~i~c~ce~t intcr~ction of Xef3i' energies ranging up to 70 kJ mol" z,e) artd BrC'N 1x1s been studicd under crossed-beam conditiorls et collision . The CNfR \* X) horuscencc spectrum, the excitation function for its production and the tluorcscence pnlnrisationor rather its absence \_ IWJC

In our previous experimental study [ Chem. Phys. Lett. 179 (1991) 442], three propensity rules of rotational energy transfer on CO ðe 3 R À ; v ¼ 1Þ collision with He were obtained experimentally. To interpret these propensity rules theoretically, a theoretical model is presented in this Letter, bas

The electronic energy transfer from Xe('P,) to CO yields an enhanced population of the fine structure components CO(d, a= 2, 3) relative to a= 1, in the vibrational level v= 7, but not in u=6. A theoretical analysis is given for the Q-selectivity considering: (i) a pure Coulomb interaction coupled w