This article discusses a breakthrough in the study of turbid liquids, such as cloudy drops in water, using a new method developed by researchers at Johannes Gutenberg University Mainz and Heinrich Heine University Düsseldorf. This method allows for the observation of internal structures within crystalline drops by using monochromatic light, overcoming challenges posed by traditional white light scattering. The technique enables researchers to examine the density profiles of cloudy or turbid materials with high precision. This approach provides insights into the complex expansion of drops composed of repelling particles and offers potential applications in analyzing sedimentation or homogenization processes in various fields, such as paints and slurries.
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