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Stacked polarimeters with twisted black phosphorus

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Version 2 2023-06-08, 12:49
Version 1 2023-01-12, 14:20
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posted on 2023-06-08, 12:49 authored by Yifeng Xiong, Yushu Wang, Runze Zhu, Haotian Xu, Chenhui Wu, Jin-hui Chen, Yang Ma, Yuan Liu, Ye Chen, K. Watanabe, T. Taniguchi, Mengzhu Shi, Xianhui Chen, Yanqing Lu, Peng Zhan, Yufeng Hao, Fei Xu
The real-time, in-line analysis of light polarization is critical in optical communication networks, which suffers from the complex systems with numerous bulky opto-electro-mechanical elements tandemly arranged along optical path. Here, we propose a fiber-integrated polarimeter with nano-thickness by vertically stacking three two-dimensional (2D) materials based photodetection units. We demonstrate a self-power-calibrated, ultrafast, unambiguous detection of linear (LP) and circular polarized (CP) light according to the symmetry broken induced linear photogalvanic effects (LPGE) and circular photogalvanic effects (CPGE) in black phosphorous (BP) units, which are twistedly stacked to substitute traditional mechanical rotation of polarizers. As a demonstration, we achieve Hadamard single-pixel polarimetric imaging by the polarimeter to recognize the polarization distributions, showing potential in high-speed polarization-division-multiplexed imaging and real-time polarized endoscopy. This work provides a new strategy for next-generation ultracompact optical and optoelectronic systems, and guides a way for developing high-resolution arrayed devices with multifunctional pixels.

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