Intensity anomaly in the A2∑+←X2∏ resonant-(2+2) multiphoton ionization spectra of NO

## Nltromethane m a pulsed supersonIc molecular beam was decomposed by high-power CO2 laser-mducea multlphoton dlssocntlon The NO2 fragments from this decomposltlon were detected \\~th time, space, and spectroscopx resolution by pulsed tunable dye laser-mduced multlphoton 1oruzat1on Sunultnneous q

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

Characterization of laser 2+2 multiphoton ionization of nitrogen to obtain rotational state distributions has been investigated via the resonant two-photon transition a'lI,(u =l) -X lZs( u = 0). For room-temperature nitrogen, the spectral intensities and state distribution are directly related and g