Pulsed-field ionization spectroscopy of CO via the E1Π state and NO via the B2Π state

Results of theoretical studies of rotational branching ratios and photoelectron angular distributions for (2 + 1) resonance-enhanced multiphoton ionization (REMPI) of NO via the Qz, ( 13.5) branch of the C \*H(3px) Rydberg state are reported and compared with recent measurements. Both calculated and

The rotational state-selective detection of nitrogen is demonstrated employing 2 + 2 multiphoton ionization through the intermediate H 'II,( v' = 3) state, and the method is seen to be very sensitive. A comparison between experiment and theory is presented using intensity data from the resonantly en

Electron-impact excitation of CO plays an important role in planetary atmospheres and interstellar clouds. At the present time, serious discrepancies exist among excitation cross sections reported in the literature for this molecule. We measured electronimpact excitation cross sections for B 'Z+ +X

Cross scct~ons fix vrbrntional c-xltntlon (VE) of the X 1 Z: state of LQ wa formation of the cxnted A '$ or B II-I" eiectromc states are reported. For VE through the A ' ~6 state. the cross secttons are nearly constant for forming X ' ?I; (3 < U" < 9) WI electron colhslonnl cwltatlon. For photon pum