Experimental measurement of the radiative lifetime of NO+ (X 1Σ+, v=1, 2 and 3)

Calculations using large atomic natural orbital (ANO) basis sets and high levels of correlation treatment are employed to determine the radiative lifetime for the t= I-5 levels of the X 'Z+ state ofNO+. The theoretical lifetimes, which agree well with prewous theoretical estimates, are estimated to

The 193 nm photolysis of acetylene has been used as a source of &(B 'Z: ) radicals, which are subsequently detected by laserinduced fluorescence technique. The pressure-dependent collisional lifetimes of this radical are experimentally determined by delaying the probe laser with respect to the photo

Lifetimes of NF b 'Z + (2.33 ms) and a 'A (2.85 s) in solid argon have been determined by pulsed laser excitation of the b state. The integrated (0,O) band intensities of the b-X, b-a, and a-X transitions are 1 .OO, 2.9 k 0.6, and 2.7 f 0.6, in relative units. It is concluded that cascading from b '

\(\mathrm{P}_{2}\) molecules in the electronically excited \(C^{1} \Sigma_{\mathrm{u}}^{+}\)state were selectively formed in \(v^{\prime}=11\) by \(\mathrm{ArF}\) laser ( \(193.3 \mathrm{~nm}\) ) irradiation of phosphine/argon mixtures. The intensities of emissions to the vibrational levels \(v^{\pr