Energy transfer in tetracene-doped anthracene crystals

Pimsccond time-resolved fluorescence spectroscopy measurements have been conducted on very thin tetraoen&oped anthracene miaouystak\_ The observed time dependence of the fluorescence intensities of crystals with wuiouc: cancentrations of tetxacene IS an&tent with predictions of the combmed theory of

A picosecond laser system has been employed to study the kmetics of singlet evciton energy transfer m p-terphenyl single crystals doped with tetracene over the temperature range 77-300 K. First-order kinetics prevail and exciton migration from host to guest is controlled by thermal activation over a

The magnetic field dependence of host as well as of guest delayed fluorescence in tetracenedoped anthracene crystals was measured. The positions of the high field level-crossing resonances for heterofusion indicate that tetracame molecules enter the anthracene lattice substitutionally. The changes i

Saturation of the fluorescenc=z of tetracene in anthracene crystal with increasing excitation was ob--served at liquid nitrogen temperature. Samples were excited by a iow energy electron beam (X 20 kev). The reIation between t!e fluorescence intensity and the electron beam density was explained by s

Energy transfer from the higher excited states of tetracene to the lower excited states of host anthracene crystal has been found.