The origin of the rotational state dependence of electronic relaxation in azabenzenes

Energy transfer from rotatlonnl levels (K' from 9 to 12) of vtbratlonless S 1 (t AU) glyoxal has been studled wth SO glyowl or CO as D colhson partner The expenments do not show any dlstxnct propensity for spcclfic qu;lnrum humps AK'; sm;lU 1s well as large changes of K' have been observed Electromc

HOHAHA distortions in conventional (CW) ROESY experidition of maximum HOHAHA transfer. Thus, choosing a ments are known to be prominent when the frequency of the spintransmitter position where there are no crosspeaks perpenlock field is near the midpoint between the resonance frequencies dicular to

Experimental and theoretical studies of the role of angular momentum in the decay behavior of ' Bsu pyrazine show that the strong rotational state dependence has its origin in the breakdown of the bp = 0 (AK = ~1) selection rule for intersystem crossing. Some possible reasons for this are discussed.

Ternpernture dependent ESR relaxation measurements made on the excited triplet state of pyrene-d-10 show ;L decrease in Tie with decrease in temperature from 300°K to SOOK. Optical measurements suggest the relnxation arises from exciton motion in the host crystal fluorene.

Extending the angle-dependent line-of-centers model originally developed to treat the orientation dependence of atom-molecule reaction cross sections, it is possible to predict the JKM dependence of the reactivity of rotationally state-selected, oriented symmetric top molecules in collision with sph