Polarization insensitive imaging through polarization gratings.
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TLDR
It is demonstrated that they can be combined for polarization-insensitive imaging and optical switching applications and a pair of closely spaced, parallel oriented, cycloidal polarization gratings is capable of canceling the diffractive property of an individual grating.Abstract:
Liquid crystal polarization gratings exhibit high diffraction efficiency (~ 100%) in thin material layers comparable to the radiation wavelength. We demonstrate that they can be combined for polarization-insensitive imaging and optical switching applications. A pair of closely spaced, parallel oriented, cycloidal polarization gratings is capable of canceling the diffractive property of an individual grating. As a result, the phase of the beam is not distorted, and holographic images can be formed through them. An anti-parallel arrangement results in a broader effective diffraction band and doubles the diffraction angle. Broadband diffraction spanning from 480 nm to beyond 900 nm wavelengths has been obtained for a pair of gratings with 500 nm and 633 nm peak diffraction wavelengths. Liquid crystal polymer cycloidal gratings were used in the study showing 98% diffraction efficiency over a large area, and allowed for the use of laser beams expanded to 25 mm. The characteristics of combined cycloidal gratings were tested with laser beams at both UV and red wavelengths.read more
Citations
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References
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Journal ArticleDOI
Holographic Polymer-Dispersed Liquid Crystals (H-PDLCs)1
TL;DR: In this paper, the formation of switchable holographic gratings from polymer-dispersed liquid crystals (H-PDLCs) allows for the development of turnable transmissive and reflective diffractive optics, created by coherent interference of laser radiation within a syrup containing photoreactive monomer, initiator, and liquid crystal.
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Achromatic diffraction from polarization gratings with high efficiency.
Chulwoo Oh,Michael J. Escuti +1 more
TL;DR: A broadband, thin-film, polarizing beam splitter based on an anisotropic diffraction grating composed of reactive mesogens (polymerizable liquid crystals) that manifests high diffraction efficiency and high extinction ratio in both theory and experiment.
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Liquid-crystal diffraction gratings using polarization holography alignment techniques
Gregory P. Crawford,James N. Eakin,Marc D. Radcliffe,Andrew Callan-Jones,Robert A. Pelcovits +4 more
TL;DR: In this paper, a method of patterning surfaces for liquid-crystal alignment using a polarization holography exposure on a linear photopolymerizable polymer alignment layer is demonstrated.