论文信息 - Reorientation Dynamics of Polymer Dispersed Nematic Liquid Crystal Films

Reorientation Dynamics of Polymer Dispersed Nematic Liquid Crystal Films

Abstract The electro-optical dynamics, hysteresis effects, and microscopic structure of polymer-dispersed films of nematic liquid crystal are probed in order to gain insight into the operation of this new class of liquid crystal light valves. In tracking the rise and decay response times of these devices, it appears that there are both ‘fast’ (0·1·l.0ms) and ‘slow’ (10-1000ms) processes that occur in the film. A model is proposed which explains these results, in which the reorientation of the nematic droplets takes place in two stages: a fast reorientation by the nematic within the bulk of the droplet, followed by a slower rotation of the nematic nearer the droplet surface (including the point disclinations). This model agrees with a similar proposal made by Doane et al in a previous study of related films. This model is also used to explain both the behaviour of the films in response to short voltage pulses and hysteresis effects present in the film. The response time of these films can be tailored by ad...

Paul S. Drzaic | P. Drzaic

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