Radiative lifetime of metastable NH(b 1Σ+)

ElectroniulIy excited NIf(b ' C' , u' = Cl) has heen produced in the vacuum ultraviolet photolysis of ammonia at pressures in the millitosr range. Absolute rate coefficients for quenching and radiation have been determined by time-resolved measurements of the emission near 471 nm of the 0,O band of

PH (b 'C? has been obtained in the vacmzm ultravioiolet flash photolysis of PH3 and detected by the 697.3 nm emission due to the forbidden transition PH (b 'Z \* -+ X 3Z-). Rate coefficients for mdiitive and collisional deactivatioa have been determined by time resolved measurements. A radiative Iif

Potential energy and dipole moment functions for the electronic ground state of the NO+ ion have been calculated from highly correlated CASSCF-CI electronic wavefunctions. The radiative lifetimes of the vibrational states are compared with two different experimental measurements and previous theoret

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

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