Optics of Mono-domain Liquid Crystal Displays

We investigate the optical properties of liquid crystal devices whose dark states are optically compensated to give minimum transmittance. Firstly the effect of multiple internal reflections on the extinction ratio of perfectly compensated liquid crystal devices is studied. We find the previously unexplained wavelength dependence of light leakage in an ideally compensated device is caused by the interference of the internally reflected ordinary and extraordinary waves. Secondly we study the off-axis light transmission characteristics of the bright state of common liquid crystal displays including their luminance and color properties. Our research shows there is an unexpected universal shape of the off-axis light transmittance in its bright state regardless of what liquid crystal mode is used. Thirdly we have studied the off-axis light transmission properties of the bright state in Pi-cell devices as a function of the white state director configuration. Finally we explore the phase compensation of the dark states in LCDs and find that there is a limitation for the compensation of a uniaxial layer even in the most simple director configuration.