Time resolved studies of collisional transfer and radiative decay of the CS A 1Π state

The non-radiative processes of deactivation from the lowest singlet excited state of aminoanthraquinones have been studied using steady state and time-resolved methods. The fluorescence decay rate constant kf correlates well with the solvent polarity parameter E,(30) in non-hydrogen-bonding solvents

An optical-optical double resonance technique has been used to study transfer between specific quantum levels in the A\*TJ and X 'Z+ states of the CN radical in collisions with argon, Specific rotational levels within the v = 7 A state vibrational level are prepared by laser excitation m the A-X (7,

## Radiative lifetimes and quenching rates habe been measured for rotational levels of CS A 'r~(v = 0) throughout the region of perturbation by the a' 3p -(u = 10) state. The measured lifetimes reflect the extent of mi..ing with the a' 3~ state and from the unperturbed value oft = 171 + 10 ns the

Picosecond lifetime and depolartiation studies of '(n, n\*) emission from trans-azobenzene ïndicate that ffuorescence ccm-. tributes substanties to the emission decay pattern. The 1 (n, n\*) state's decay time is ~25 ps, in contrast to the nanosecond Iifetïmes exhlbited by fIuorescing singlet states