Solvent effect on magnetic field modulation of excbplex fluorescence in polar solutions

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

The magnetic field effect on the intensity of delayed monomer fluorescence is different from the effect on delayed dimer fluorescence. It is concluded that delayed monomer and dimer fluorescence must stem from Wo different types of T-T annihilation process. Pola&ation of the magnetic fieldeffects ha

Static magnetic fields affect the diffusion of biological particles in solutions through the Lorentz force and Maxwell stress. These effects were analyzed theoretically to estimate the threshold field strength for these effects. Our results show that the Lorentz force suppresses the diffusion of cha

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

Tltc fluorescence and p~ospharesc~nce of some aliphstic amine8 have been measured. A rcmnrksbio solvent abift of the fIuorcscenco has been found nod oxpIainod in terms af the large sotvntian energy for the Rydbarg s&to. The fhmrescenco is quenched by oxygxm, 1, Z-dichtoroethano and acctanitrile, A n