Numerical Modeling and Simulation of a Cholesteric Liquid Crystal Polarizer

## Abstract An exact matrix polynomial series solution for oblique propagation in a cholesteric liquid crystal, reported in this journal some years ago, was numerically implemented. After a slight reformulation, it was found that numerical results can be accurately and quickly obtained with a simpl

Eq. ( 16) of the subject paper [1] should read as follows: No results were affected by this error. We regret any inconvenience that may have been caused. REFERENCE 1. J.A. Polo, Jr. and A. Lakhtakia, Numerical implementation of exact analytical solution for oblique propagation in a cholesteric liqu

A nucleation and ,srowth model is proposed to explain NMR observations of the reorder+ of a nematic-cholesteric lïquid crysta1 mixture. The model involves the growth of three dïmensional reordered regions. It predicts a time dependence involving expl-Ar?l) with N = 2.5. Previous measurements fit the

To obtain a guide for shortening the liquid crystal filling time, we devised a filling simulation model based on two-dimensional incompressible Stokes flow and studied its suitability. We found this model allowed us to predict the effect on the filling time of changes in the panel parameters, such a