The effect of a magnetic field on discrete and continuum CS2 fluorescence

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.

Magnetic field effects on the banded emission from the V 'Bt state of CS2 have been studied. A magnetic field was found to decrease the integrated intensity of the fluorescence excitation spectrum and to shorten the lifetime of a picosecond component. These results indicate that a magnetic field enh

In the paper the magnetic-field influence upon the Sand L components of SO2 fluorescence is studied under 3080 A excitation. The magnetic field affects both the amplitudes and the lifetimes of the two components. A model is outlined for qualitative description of the results obtained.

Polarization of the fluorescence of pyrimidine in a supersonic jet, and external magnetic field effects thereupon have been observed with excitation at individual rovibronic absorption lines belonging to the O-O band of the So-S, transition. On excitation at the R( 0) line, the decays of the paralle