Phase-only transmissive spatial light modulator based on tunable dielectric metasurface
Shi-Qiang Li, Xuewu Xu, Rasna Maruthiyodan Veetil, Vytautas Valuckas,, Ram\'on Paniagua-Dom\'inguez, Arseniy I. Kuznetsov

TL;DR
This paper introduces a tunable dielectric metasurface-based spatial light modulator that achieves ultra-small pixel sizes and high resolution, overcoming limitations of traditional liquid crystal SLMs for advanced AR and holographic displays.
Contribution
It presents a novel metasurface design modulated by liquid crystal to enable pixel miniaturization and high-resolution beam steering, surpassing current SLM performance.
Findings
Pixel size of 1.14 μm achieved, 30 times smaller than commercial devices.
Beam deflection angle of 11°, efficiency over 35%.
High resolution of 877 lp/mm demonstrated.
Abstract
Rapidly developing augmented reality (AR) and 3D holographic display technologies require spatial light modulators (SLM) with high resolution and viewing angle to be able to satisfy increasing customer demands. Currently available SLMs, as well as their performance, are limited by their large pixel sizes of the order of several micrometres. Further pixel size miniaturization has been stagnant due to the persistent challenge to reduce the inter-pixel crosstalk associated with the liquid crystal (LC) cell thickness, which has to be large enough to accumulate the required 2{\pi} phase difference. Here, we propose a concept of tunable dielectric metasurfaces modulated by a liquid crystal environment, which can provide abrupt phase change and uncouple the phase accumulation from the LC cell thickness, ultimately enabling the pixel size miniaturization. We present a proof-of-concept…
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