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17 August 2010 Optical trapping in liquid crystals
F. Simoni, L. Lucchetti, L. Criante, F. Bracalente, F. Aieta
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Proceedings Volume 7775, Liquid Crystals XIV; 77750F (2010) https://doi.org/10.1117/12.860517
Event: SPIE Photonic Devices + Applications, 2010, San Diego, California, United States
Abstract
Optical trapping and manipulation of micrometric silica particles dispersed in a nematic liquid crystal is reported. Several kind of samples are considered: homeotropic and planar undoped cells and homeotropic and planar cells doped by a small amount of the azo-dye Methyl-Red. The incident light intensity is over the threshold for optical reorientation of the molecular director. The refractive index of the dispersed particles is lower than the ones of the liquid crystal therefore the usual conditions for laser trapping and manipulation are not fulfilled. Nevertheless optical trapping is possible and is closely related to the optical nonlinearity of the hosting liquid crystal1. Trapping in doped and undoped cells are compared and it is shown that in the first case intensity lower by more than one order of magnitude is required as compared to the one needed in undoped samples. The effect is faster and the structural forces are of longer range. The formation of bubble-gum like defects in doped samples under certain experimental conditions is also reported and discussed.
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F. Simoni, L. Lucchetti, L. Criante, F. Bracalente, and F. Aieta "Optical trapping in liquid crystals", Proc. SPIE 7775, Liquid Crystals XIV, 77750F (17 August 2010); https://doi.org/10.1117/12.860517
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KEYWORDS
Particles
Optical tweezers
Liquid crystals
Silica
Distortion
Nonlinear optics
Refractive index
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