16 September 2014 Engineering particle trajectories in microfluidic flows using speckle light fields
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Abstract
Optical tweezers have been widely used in physics, chemistry and biology to manipulate and trap microscopic and nanoscopic objects. Current optical trapping techniques rely on carefully engineered setups to manipulate nanoscopic and microscopic objects at the focus of a laser beam. Since the quality of the trapping is strongly dependent on the focus quality, these systems have to be very carefully aligned and optimized, thus limiting their practical applicability in complex environments. One major challenge for current optical manipulation techniques is the light scattering occurring in optically complex media, such as biological tissues, turbid liquids and rough surfaces, which give rise to apparently random light fields known as speckles. Here, we discuss an experimental implementation to perform optical manipulation based on speckles. In particular, we show how to take advantage of the statistical properties of speckle patterns in order to realize a setup based on a multimode optical fiber to perform basic optical manipulation tasks such as trapping, guiding and sorting. We anticipate that the simplicity of these “speckle optical tweezers” will greatly broaden the perspectives of optical manipulation for real-life applications.
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Giorgio Volpe, Giovanni Volpe, Sylvain Gigan, "Engineering particle trajectories in microfluidic flows using speckle light fields", Proc. SPIE 9164, Optical Trapping and Optical Micromanipulation XI, 91640I (16 September 2014); doi: 10.1117/12.2061040; https://doi.org/10.1117/12.2061040
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