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Refractive Bessel lattice in azobenzene liquid crystal |
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| Authors: | Varsenik Nersesyan Tigran Dadalyan Jeroen Beeckman Filip Beunis Kristiaan Neyts |
| Affiliation: | 1. Photonics Department, Institute for Physical Research, National Academy of Sciences of Armenia, Yerevan, Armenia;2. Electronics and Information Systems Department, Ghent University, Ghent, Belgium;3. Center for Nano and Biophotonics, Ghent University, Ghent, Belgium;4. Electronics and Information Systems Department, Ghent University, Ghent, Belgium |
| Abstract: | A refractive Bessel lattice with micrometric periodicity is induced optically in a photosensitive azobenzene liquid crystal cell of 3?µm thickness by a green 532?nm, 30?mW Bessel beam and with simultaneous illumination by a red 632.8?nm, 15?mW Gaussian beam. The uninterrupted action of both beams plays a key role in the complete mechanism of the refractive lattice formation. The lattice formation is investigated in real-time by the measurement of forward diffracted ring powers from both the red Gaussian and the green Bessel beams. The diffraction efficiency is investigated depending on the green Bessel beam intensity and on the mutual relation between the green beam polarization and the rubbing direction of the cell. A maximum diffraction efficiency of 1.1% is obtained which corresponds to a refractive index change of 6?×?10?3. Simulations are performed and a physical model to explain the experimental results is discussed. |
| Keywords: | Refractive lattice azobenzene liquid crystals Bessel beam diffraction diffusion photoisomerization |