Full-space spin-decoupled versatile wavefront manipulations using non-interleaved metasurface
Achieving multifunctional wavefront manipulations of waves with a flat and thin plate is pivotal for high-capacity communications, which however is also challenging. A multi-layer metasurface with suppressed mode crosstalk provides an efficient recipe primarily for circular polarization, but all mul...
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sg-ntu-dr.10356-1715322023-11-03T15:40:41Z Full-space spin-decoupled versatile wavefront manipulations using non-interleaved metasurface Wang, Chaohui Xu, He-Xiu Hu, Guangwei Liu, Yi Liu, Tong Wang, Kun Zhang, Fan Xu, Chuo Xu, Jian Pang, Zhichao School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Wavefront Manipulations Spin-Decoupled Achieving multifunctional wavefront manipulations of waves with a flat and thin plate is pivotal for high-capacity communications, which however is also challenging. A multi-layer metasurface with suppressed mode crosstalk provides an efficient recipe primarily for circular polarization, but all multiple functionalities still are confined to locked spin states and modes. Here, a multifunctional metasurface with spin-decoupled full-space wavefront control is reported by multiplexing both linear momentum and frequency degree of freedom. We employed vertically cascaded quadrangular patches and crossbars to integrate both geometric and dynamic phases and realized four channels between two spin states and two frequencies in distinct scattering modes (transmission and reflection). For verification, a proof-of-concept metadevice with four-port wavefront manipulations is experimentally demonstrated, exhibiting distinct functionalities including spin- and frequency-dependent focusing, quad-beam radiation, anomalous reflections, and Bessel beam generation. Our finding of full-space spin-decoupled metasurfaces would be important for high-capacity communications, multifunctional radar detections, and other applications. Published version This work was supported by the National Natural Science Foundation of China (62171459); National Defense Foundation of China (2019-JCJQ-JJ-081); National Defense Foundation for Distinguished Young Scholars, grant number 2022-JCJQ-ZQ-006; the Key Program of Natural Science Foundation of Shanxi Province (2020JZ-33); the Key Principal’s Fund of Air Force Engineering University (XNLX19030601). 2023-10-30T01:32:00Z 2023-10-30T01:32:00Z 2023 Journal Article Wang, C., Xu, H., Hu, G., Liu, Y., Liu, T., Wang, K., Zhang, F., Xu, C., Xu, J. & Pang, Z. (2023). Full-space spin-decoupled versatile wavefront manipulations using non-interleaved metasurface. Nanophotonics, 12(15), 3149-3158. https://dx.doi.org/10.1515/nanoph-2023-0171 2192-8614 https://hdl.handle.net/10356/171532 10.1515/nanoph-2023-0171 2-s2.0-85164010686 15 12 3149 3158 en Nanophotonics © 2023 the author(s), published by De Gruyter. This work is licensed under the Creative Commons Attribution 4.0 International License. application/pdf |
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Engineering::Electrical and electronic engineering Wavefront Manipulations Spin-Decoupled |
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Engineering::Electrical and electronic engineering Wavefront Manipulations Spin-Decoupled Wang, Chaohui Xu, He-Xiu Hu, Guangwei Liu, Yi Liu, Tong Wang, Kun Zhang, Fan Xu, Chuo Xu, Jian Pang, Zhichao Full-space spin-decoupled versatile wavefront manipulations using non-interleaved metasurface |
| description |
Achieving multifunctional wavefront manipulations of waves with a flat and thin plate is pivotal for high-capacity communications, which however is also challenging. A multi-layer metasurface with suppressed mode crosstalk provides an efficient recipe primarily for circular polarization, but all multiple functionalities still are confined to locked spin states and modes. Here, a multifunctional metasurface with spin-decoupled full-space wavefront control is reported by multiplexing both linear momentum and frequency degree of freedom. We employed vertically cascaded quadrangular patches and crossbars to integrate both geometric and dynamic phases and realized four channels between two spin states and two frequencies in distinct scattering modes (transmission and reflection). For verification, a proof-of-concept metadevice with four-port wavefront manipulations is experimentally demonstrated, exhibiting distinct functionalities including spin- and frequency-dependent focusing, quad-beam radiation, anomalous reflections, and Bessel beam generation. Our finding of full-space spin-decoupled metasurfaces would be important for high-capacity communications, multifunctional radar detections, and other applications. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Wang, Chaohui Xu, He-Xiu Hu, Guangwei Liu, Yi Liu, Tong Wang, Kun Zhang, Fan Xu, Chuo Xu, Jian Pang, Zhichao |
| format |
Article |
| author |
Wang, Chaohui Xu, He-Xiu Hu, Guangwei Liu, Yi Liu, Tong Wang, Kun Zhang, Fan Xu, Chuo Xu, Jian Pang, Zhichao |
| author_sort |
Wang, Chaohui |
| title |
Full-space spin-decoupled versatile wavefront manipulations using non-interleaved metasurface |
| title_short |
Full-space spin-decoupled versatile wavefront manipulations using non-interleaved metasurface |
| title_full |
Full-space spin-decoupled versatile wavefront manipulations using non-interleaved metasurface |
| title_fullStr |
Full-space spin-decoupled versatile wavefront manipulations using non-interleaved metasurface |
| title_full_unstemmed |
Full-space spin-decoupled versatile wavefront manipulations using non-interleaved metasurface |
| title_sort |
full-space spin-decoupled versatile wavefront manipulations using non-interleaved metasurface |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171532 |
| _version_ |
1781793768760934400 |