Studies of magnetic field effects on the intensity and the lifetime of sulfur dioxide luminescence in the gas phase

Magnetic field effects on the NO2 photolysis rate at an energy range below the dissociation threshold are shown to be identical to those observed in fluorescence. According to the data obtained, both the 'B2 and \*B, states of NO2 are reactive. The high pressure data have been explained in terms of

The effects of a magnelic field of O-ID Ton the huninescence life&me and spectxum of microcrystalline K4[P12(H2P20s)4 ] at 2 K are described\_ The decay lifetime decreases in the presence of a rna~etic field, and Lhe decay becomes non~x~n~ti~\_ The magnetic field also produces a blue-shift in tie lu

Luminescence Lifetimes of several complex ions at 77% and 4.2'K arc reported. The Lifetimes are shortened in a magnetic field. The results indicate that emission occurs from scvera! states in Boltzmann equilibrium, at least one of which possesses a magnetic moment.

Time-resolved studies of the magnetic field effect on pyrene-dimethylanilie exciplex luminescence in non-alcoholic solvent mixtures (dielectric constant of 16) have been performed with the help of a time-correlated single-photon counting technique. The shape of the time-variation curve is interprete

Ageing e ect on the photoluminescence spectra and lifetime of porous silicon are analyzed in a set of samples containing particles with various sizes. The ageing causes a pronounced increase in the intensity from the sample containing large particles, whereas it causes only a small increase for the