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Universal Metasurfaces for Complete Linear Control of Coherent Light Transmission.

Taeyong ChangJoonkyo JungSang-Hyeon NamHyeonhee KimJong Uk KimNayoung KimSuwan JeonMinsung HeoJonghwa Shin
Published in: Advanced materials (Deerfield Beach, Fla.) (2022)
Recent advances in metasurfaces and optical nanostructures have enabled complex control of incident light with optically thin devices. However, it has thus far been unclear whether it is possible to achieve complete linear control of coherent light transmission, that is, independent control of polarization, amplitude, and phase for both input polarization states, with just a single, thin nanostructure array. Here, it is proved possible, and a universal metasurface is proposed, a bilayer array of high-index elliptic cylinders that possesses a complete degree of optical freedom with fully designable chirality and anisotropy. The completeness of achievable light control is mathematically shown with corresponding Jones matrices, new types of 3D holographic schemes that were formerly impossible are experimentally demonstrated, and a systematic way of realizing any input-state-sensitive vector linear optical device is presented. The results unlock previously inaccessible degrees of freedom in light transmission control.
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