Magnetic field effects on the fluorescence polarization of pyrimidine in a supersonic jet

Fluorescence polarization of pyrimidine in a supersonic jet has been examined in the absence of an external field with excitation at each of the rotational lines of the various vibronic absorption bands belonging to the S&i transitions. The internal magnetic field which depolarizes the fluorescence

The fluorescence intensity of pyrimidine-d, is found to he enhanced, as well as quenched, hy an external magnetic field. Quantum beats in the fluorescence decay are ohserved in a zero tield, and the field dependence ofthe heat frequencies is well correlated with the field dependence of the lluoresce

The magnetic field effect on pyrenefN,N&ethylamline steady-state exciplex fluorescence was found to depend on solvent polarity. It is explained in terms of a model based on macroscopic properties of the system. Potential barriers between radical ion pair state and fluorescent exciplex, E, = 0.18-0.2

Fluorcsccncc from the 'A, state o~glyosal is quenched by a magnetic field and the prc-cxponential Factor of phosphorcsccncc from lhc 3A, state increases with increasing mugetic field. These finding arc csplained by the cnhancemcnt of inrmmolcculor intersystcm crossing by the mugnctic field.

ReceIvcd 6 Aprd 1982 QuanIum beats and fluorescence decays oT the viirmonlsss Sr s1m ofpioolcd pymmc hare been studled JS a iunclion oimagnelic field. Founer analysa of the modulated portions ol' these dccsys has yIelded results which arc cons~stcnt wIIh Rsc and secondarder Zeemzr effects occurrmg m