Disclosed is a novel method for suppressing multiple scattering in examinations of turbid media by means of a cross-correlation technique. Prior to the adjustment of said method, a medium is disposed in an examination container and is illuminated by two laser beams. The light intensity scattered by the laser beams is picked up by detection lenses and cross-correlated. The direction vectors of the two scatter geometries are arranged in such a way that they are tilted at an angle in relation to at least one plane extending through the point of intersection of the illuminating beams in the examination container. The illuminating beams (k1, k2) and the direction vectors are arranged in such a way that the two scatter geometries are disposed in a non-symmetrical manner in relation to each of the planes extending through the point of intersection of the two intersecting illuminating beams (k1, k2) in the examination container, whereby at least parts of equivalent light spots are picked up by both detection lenses and the scatter light intensities picked up by both detection lenses for dispersions which are approximately transparent are cross-correlated.
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