Breaking the limitation of polarization multiplexing in optical metasurfaces with engineered noise.
Bo XiongYu LiuYihao XuLin DengChao-Wei ChenJia-Nan WangRu-Wen PengYun LaiYongmin LiuMu WangPublished in: Science (New York, N.Y.) (2023)
Noise is usually undesired yet inevitable in science and engineering. However, by introducing the engineered noise to the precise solution of Jones matrix elements, we break the fundamental limit of polarization multiplexing capacity of metasurfaces that roots from the dimension constraints of the Jones matrix. We experimentally demonstrate up to 11 independent holographic images using a single metasurface illuminated by visible light with different polarizations. To the best of our knowledge, it is the highest capacity reported for polarization multiplexing. Combining the position multiplexing scheme, the metasurface can generate 36 distinct images, forming a holographic keyboard pattern. This discovery implies a new paradigm for high-capacity optical display, information encryption, and data storage.