INVESTIGATION OF OPTICAL PROPERTIES OF LIQUID CRYSTALS IN HEXAGONAL STRUCTURE BY LIGHT SCATTERING

The computer modeling of light scattering and its propagation through columnar disc liquid crystal, shaped hexagonal is presented. Light propagation through a columnar disc 2,3,6,7,10,11-hexaheptyloxytriphenylene format in H7T is represented by using a cylindrical model by using the transverse magnetic (TM) and the transverse electric (TE) conditions. Numerical aspects of the light scattering process, which are based on numerically solved Maxwell's equations, are calculated for a hexagonal liquid crystal. We described in detail how we computed the circular cylindrical model of light scattering from a columnar hexagonal liquid crystal and presented results of benchmark computations for our model. These results are associated with our previous studies on liquid crystals [1-3].