We used a flow cytometer together with an intensified CCD camera to record spatially resolved light scattering from micrometer-sized single particles and single oriented particle agglomerates. Experimental differential cross sections of an oriented dumbbell made from two identical polystyrene spheres were compared with theoretical values calculated within the discrete dipole approximation, and good agreement was achieved. Furthermore, characteristic two-dimensional patterns of the scattered-light intensity were recorded for single blood cells, yielding information on the cells' shape and volume. Besides flow cytometry, we observed and analyzed differential light scatter of particle clusters of known size, shape, and orientation located within an optical trap.
We have determined the fluorescence yield of stained micro beads, used for calibration purposes in flow cytometry, as function of the irradiance of the exciting laser beam. A rate equation model has been applied to derive the number of fluorescence molecules carried by each micro bead. To derive in situ photo-physical properties of the specific dye, required for the rate equation model, we discuss an approach based on flow cytometric sorting of micro beads, which have passed two laser beams with properly chosen different irradiances, and subsequent observation of single molecule bleaching employing high sensitivity microscopy. The feasibility of our approach is demonstrated presenting first results concerning saturation of fluorescence of beads in flow and single molecule bleaching by high sensitivity microscopy.
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