The dependence of director orientation of newatic liquid crystals on electric field;

From the theory of Oseen-Frank, using finite difference and over-relaxation method, the numerical model of multi-dimensional liquid crystal director deformation profile is introduced, and the flow chart of the program is given The program has the features of quick speed, stability and high-accuracy, and it is suitable for solving any complicated liquid crystal structure.

Based on the continuous elastomer theory,director equations are analyzed by comparing advantages and disadvantages of Newton method,simulated annealing and iterative algorithm.

Rectangular director domains were set up,which are bounded by "virtual surfaces" with a finite anchoring energy.

The results show that the function of surface energy has a great influence on the director distribution and its property of transition.

A simulation method for determining the director distribution of liquid crystal in a twist nematic layer is presented based on finite element method.

The influence of K24 on the director distribution was discussed by solving the equation.

The refractive indices and the phase delay of the liquid crystal cell in electric field was presented on the basis of calculation of the planar alignment nematic and the twisted nematic liquid crystal director distributions, through the comparison we found the planar alignment nematic liquid crystal was more applicability .

We have derived equations based on light scattering caused by fluctuations[1] of nematic LC director to explain.