Open Access. Powered by Scholars. Published by Universities.®
Physical Sciences and Mathematics Commons™
Open Access. Powered by Scholars. Published by Universities.®
- Publication
Articles 1 - 3 of 3
Full-Text Articles in Physical Sciences and Mathematics
Hybrid Rod-Like And Bent-Core Liquid Crystal Dimers Exhibiting Biaxial Smectic A And Nematic Phases, Yan Wang, Hyung Yoon, Hari Bisoyi, Satyendra Kumar, Quan Li
Hybrid Rod-Like And Bent-Core Liquid Crystal Dimers Exhibiting Biaxial Smectic A And Nematic Phases, Yan Wang, Hyung Yoon, Hari Bisoyi, Satyendra Kumar, Quan Li
Satyendra Kumar
Liquid crystal hybrid dimers involving bent-core units and rod-like units were designed, synthesized and investigated by a combination of polarizing optical microscopy (POM), differential scanning calorimetry (DSC) and X-ray diffraction studies. All the four unsymmetrical dimers 1–4 exhibited stable nematic phases over a wide temperature range. Moreover, dimer 1exhibited the biaxial smectic A (SmA) phase and dimer 2 exhibited a highly ordered mesophase below the nematic (N) phase. Two rod-like and bent-core nematogenic units were covalently linked in dimers 3 and 4 to furnish exclusively the nematic phase. The observation of the biaxial SmA phase underlying the nematic phase in …
Electrically Tunable Lens Based On A Dual-Frequency Nematic Liquid Crystal, Oleg Pishnyak, Susumu Sato, Oleg Lavrentovich
Electrically Tunable Lens Based On A Dual-Frequency Nematic Liquid Crystal, Oleg Pishnyak, Susumu Sato, Oleg Lavrentovich
Oleg Lavrentovich
We report on an electrically controlled liquid-crystal-based variable optical lens filled with a dual-frequency nematic material. The lens design employs a hole-patterned electrode structure in a flat nematic cell. In order to decrease the lens switching time we maximize the dielectric torque by using a dual-frequency nematic material that is aligned at an angle approximately 45 degrees with respect to the bounding plates by obliquely deposited SiOx, and by using an overdrive scheme of electrical switching. Depending on the frequency of the applied field, the director realigns either toward the homeotropic state (perpendicular to the substrates) or toward the planar …
Optical Vortices Generated By Dislocations In A Cholesteric Liquid Crystal, D. Voloschenko, Oleg Lavrentovich
Optical Vortices Generated By Dislocations In A Cholesteric Liquid Crystal, D. Voloschenko, Oleg Lavrentovich
Oleg Lavrentovich
We report the observation of optical vortices in a laser beam propagating through the stripe pattern of a cholesteric liquid crystal. The liquid crystal is confined in a cell with homogeneous boundary conditions and forms a diffraction phase grating. Optical vortices are produced by edge dislocations of the cholesteric grating. The vortices show up as spots of zero light intensity in the diffraction maxima. There is one spot in each +1 and -1 diffraction maximum and two spots in diffraction maxima +2 and -2. (C) 2000 Optical Society of America. OCIS codes: 160.3710, 050.1940, 180.1790, 070.4690.