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Conventional approaches based on space- or time- multiplexing can provide multifocal functionality but with a significant sacrifice in resolution or frame rate. As a novel alternative, polarization multiplexed methods can avoid these drawbacks, but they can only achieve two focal depths since there are only two orthogonal polarization states. The wavelength multiplexing proposed here is intrinsically free from all the limitations mentioned above.
Firstly, as a proof of concept, we built a dual-focal near-eye display using off-the-shelf optical components. The prototype is designed based on a birdbath architecture with an extra spectral notch filter as the wavelength-sensitive depth separation element. The optical powers for the two wavelength sets are determined by the distance between the reflector and notch filter. Our benchtop demo can generate two focal depths simultaneously, which are located at 1 m and 2 m away from the optical combiner.
Moreover, another compact optical design of a wavelength-multiplexed dual-focus light engine for lightguide type AR displays is also presented. Also, we analyze the implementation of full-color operation and demonstrate an angle insensitive multi-notch filter design based on optical multi-layer coatings. Finally, we discuss practical limitations and potential improvement of the proposed wavelength multiplexing method for overcoming the VAC issue.
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The class begins with an introduction to the basic molecular structure and physical properties of liquid crystals. It then describes the device physics, and various related applications. The following subjects related to liquid crystal displays are discussed:
direct-view, projection and microdisplays in the context of multi-media projectors, mobile internet and personal entertainment displays;
optimization of critical display attributes: wide angle viewing and fast response time for future LCD-TVs;
description of the basic properties of liquid crystal materials and their incorporation into configurations for transmissive, reflective and transflective display applications;
examination of the various operations modes enabling the reader to select the appropriate display type to meet a variety of needs.
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