Selection rules and a new model for stable topological defect arrays in nematic liquid crystal
Jieh-Wen Tsung1*, Ya-Zi Wang1, Sheng-Kai Yao1, Shih-Yu Chao1
1Department of Electrophysics, National Yang Ming Chiao Tung University, Hsinchu, Taiwan
* Presenter:Jieh-Wen Tsung, email:jiehwen.tsung@nycu.edu.tw
Creation of a topological defect array in liquid crystals has been a notable focus in recent years, because the defect array can be utilized as precision optics, templates of self-assembled microstructures, and elastomer actuators. So far, the defect arrays are created intuitively by trial and error. Systematic rules to arrange defects into stable long-ranged arrays are in demand. A new model of two-dimensional square and hexagonal defect array was developed based on experimental results. Two-dimensional defect arrays with various lattice structures (square and hexagonal), various defect shapes (radial or circular) and various lattice constants (pixel size) are generated by pixelated patterned electrodes in homeotropic nematic liquid crystal (NLC) cells. Orientation of NLC around a topological defect is expressed by the equation, ψ= sφ+φ0 , where ψ, s, φ and φ0 are the director spatial phase, topological charge, azimuthal angle and a spatial phase shift, respectively. The results verify the two selection rules, 1) The total s must be zero, 2) φ0 must be a constant throughout the array, and a new model is established. The model is generalized for defect crystals and quasicrystals. A crystal is the periodic repetition of a unit cell. A stable defect crystal must have minimum free energy, and the arrangement of the defects must obey the topological conservation laws. By solving the Euler–Lagrange equation of the director field of a unit cell and by integrating the topological rules into the boundary conditions, the director field of a defect crystal can be easily obtained. A large variety of defect crystals and quasicrystals are derived. The lattices are rectangular, triangular, square, pentagonal, and hexagonal. The defects can be either radial or vortex-like. The nematic and vector orders are both considered. The collection of defect crystals is presented as a catalog. The suggested cell structure and switching modes are summarized.
Keywords: topological defect, nematic liquid crystal, long-range order