Optical diffusiometer for submicrometer-distance energy-diffusion determination
- 1 October 1974
- journal article
- Published by Optica Publishing Group in Journal of the Optical Society of America
- Vol. 64 (10), 1337-1342
- https://doi.org/10.1364/josa.64.001337
Abstract
We describe and demonstrate a novel method to measure directly excitation-energy migration distances in fluorescing materials. In any desired direction, migration distances corresponding to 1/10 to 3 times the fluorescence wavelength can be determined with an accuracy of ~ 10%. Fluorescing materials in the form of typically 10-µm-thick samples are coated with a mirror on one surface. A coherent excitation beam is used to create a standing-wave pattern in the sample. The fluorescence radiation is shown to possess an interference peak in one particular direction. In the case of energy diffusion, this peak becomes indistinct. From the amplitude of the peak, the energy-diffusion distance is directly obtained. The existence of the peak, its position and amplitude are experimentally verified by use of a fluorescing film of rhodamine 6G doped polyurethane.Keywords
This publication has 8 references indexed in Scilit:
- Scattering efficiency of high-periodicity dielectric gratings: ExperimentJournal of the Optical Society of America, 1973
- Energy transfer and the complete level system of NdUPApplied Physics A, 1973
- Effects of Drift and Diffusion of Excited States on Spatial Hole Burning and Laser OscillationJournal of Applied Physics, 1971
- Influence of a dielectric interface on fluorescence decay timeJournal of Luminescence, 1970
- Effects of Diffusion on Energy Transfer by ResonanceJournal of the Physics Society Japan, 1967
- Spectral Output and Spiking Behavior of Solid-State LasersJournal of Applied Physics, 1963
- Quenching Interactions between Rare-Earth IonsThe Journal of Chemical Physics, 1962
- Zwischenmolekulare Energiewanderung und FluoreszenzAnnalen der Physik, 1948