Advanced photonics polymers and related display concepts

Nelson V. Tabiryan; Jonathan Slagle; Michael McConney; Timothy J. Bunning

doi:10.1117/12.3006278

13 March 2024 Advanced photonics polymers and related display concepts

Nelson V. Tabiryan, Jonathan Slagle, Michael McConney, Timothy J. Bunning

Proceedings Volume 12909, Ultra-High-Definition Imaging Systems VII; 129090A (2024) https://doi.org/10.1117/12.3006278
Event: SPIE OPTO, 2024, San Francisco, California, United States

Abstract

Liquid crystalline (LC) materials, particularly, polymers allow generating molecular orientation patterns with submicrometer resolution. By that, materials and fabrication technology have been developed to reach half-wave (HW) retardation for visible and even infrared wavelengths thus ensuring feasibility of geometrical phase optical components that are practically 100% efficient. Such LC polymer films allow rich architectures for designing spectrally selective optical components and polarization-independent systems. Thin LC films with customized optical functions make promising basis for high throughput and high definition display systems.

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Nelson V. Tabiryan, Jonathan Slagle, Michael McConney, and Timothy J. Bunning "Advanced photonics polymers and related display concepts", Proc. SPIE 12909, Ultra-High-Definition Imaging Systems VII, 129090A (13 March 2024); https://doi.org/10.1117/12.3006278

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KEYWORDS

Polymers

LCDs

Liquid crystals

Photonics

Optical components

Optical design

Materials processing

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