Journal
ADVANCED OPTICAL MATERIALS
Volume 9, Issue 22, Pages -Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adom.202101547
Keywords
angular multiplexing; independent encoding; meta-holograms; metasurfaces; nanoprinting
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Funding
- Wuhan University [501100007046]
- Recruitment Program of Global Experts [501100010871]
- Wuhan Science and Technology Bureau [2020010601012196]
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This study proposes a general strategy for angular-multiplexing metasurfaces based on building up an independent-encoded amplitude/phase dictionary, which provides a new platform for achieving complexity of functions for angular resolved illumination, and expanding the manipulative capabilities for optical multiplexing.
As metasurfaces have shown great potential for light manipulation, the majority of optical source parameters have been extensively explored and progressively realized for new degrees of freedom in optical control and multiplexing, including wavelength, polarization, and forward/backward illumination, etc. However, the incident wave vector (k) direction, namely the illumination angle, as one of the critical parameters, has not been fully explored for optical multiplexing due to the lack of angular-encoding freedom. Here, a general strategy is proposed to realize angular-multiplexing metasurface based on building up an independent-encoded amplitude/phase dictionary, in which one can retrieve any arbitrary combination of optical response with different angular illuminations. A series of angular-multiplexing designs are theoretically and experimentally demonstrated, including angular-multiplexed meta-holographs, nanoprintings as well as a hybridized nanoprinting with holography. These studies' numerical calculations and experiments confirm the new degree of freedom for arbitrary encoded amplitude and phase at different illumination angles. The findings establish a new platform for achieving a complexity of functions for angular resolved illumination, and expanding the manipulative capabilities for optical multiplexing.
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