INFLUENCE OF COHESIVE ENERGY OF LIQUID CRYSTAL MOLECULES BINDED TO ORIENTING SURFACE ON DYNAMIC AND OPTICAL CHARACTERISTICS OF THE π-CELL BASED MODULATOR

Computer simulation of characteristics of the liquid crystalline (LC) modulator based on pi-cells for 3D applications was performed considering the cohesive energy of LC molecules on orienting surfaces. It is shown that the decrease in the cohesive energy of LC molecules binded to orienting substrates of pi-cells, when the spin angle of LC-structure is 0 degrees, leads to significant improvement of their integrated optical characteristics. On the contrary, when the spin angle is 180 degrees, the cohesive energy decrease results in deterioration of their integrated optical characteristics. At the same time, for modulators based on pi-cells, both for the LC-structures with the spin angle of 0 degrees and for structures with the spin angle of 180 degrees, the cohesive energy decrease leads to the increase of the total response time of the modulator.