30 May 2017 Dynamic photonic crystals dimensionality tuning by laser beams polarization changing
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Abstract
A simple way to create dynamic photonic crystals with different lattice symmetry by interference of non-coplanar laser beams in colloidal solution of quantum dots was demonstrated. With the proposed technique we have made micro-periodic dynamic semiconductor structure with strong nonlinear changing of refraction and absorption and analyzed the self-diffraction processes of two, three and four non-coplanar laser beams at the dynamic photonic crystal (diffraction grating) with hexagonal lattice structure. To reach the best uniform contrast of the structure and for better understanding of the problems, specially raised by the interference of multiple laser beams theoretical calculation of the periodic intensity field in the QDs solution were performed. It was demonstrated that dynamic photonic crystal structure and even it’s dimension can be easily tuned with a high speed by the laser beams polarization variation without changing the experimental setup geometry.
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Anastasia D. Golinskaya, Anastasia D. Golinskaya, Yulia V. Stebakova, Yulia V. Stebakova, Yana V. Valchuk, Yana V. Valchuk, Aleksandr M. Smirnov, Aleksandr M. Smirnov, Vladimir N. Mantsevich, Vladimir N. Mantsevich, "Dynamic photonic crystals dimensionality tuning by laser beams polarization changing", Proc. SPIE 10228, Nonlinear Optics and Applications X, 1022812 (30 May 2017); doi: 10.1117/12.2264933; https://doi.org/10.1117/12.2264933
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