Quasicrystal Metasurfaces: Tunable On‐Chip Sources with Aperiodic Metasurface (Ann. Phys. 12/2019) | Zendy

Xu Yuehong | Zendy; Yang Quanlong | Zendy; Zhang Ying | Zendy; Li Shaoxian | Zendy; Xu Quan | Zendy; Zhang Xueqian | Zendy; Li Yanfeng | Zendy; Gu Jianqiang | Zendy; Zhang Wentao | Zendy; Hu Cong | Zendy; Han Jiaguang | Zendy; Zhang Weili | Zendy

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Quasicrystal Metasurfaces: Tunable On‐Chip Sources with Aperiodic Metasurface (Ann. Phys. 12/2019)

Author(s) -

Xu Yuehong,

Yang Quanlong,

Zhang Ying,

Li Shaoxian,

Xu Quan,

Zhang Xueqian,

Li Yanfeng,

Gu Jianqiang,

Zhang Wentao,

Hu Cong,

Han Jiaguang,

Zhang Weili

Publication year - 2019

Publication title -

annalen der physik

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.009

H-Index - 68

eISSN - 1521-3889

pISSN - 0003-3804

DOI - 10.1002/andp.201970047

Subject(s) - aperiodic graph , quasicrystal , plasmon , surface plasmon , chip , excited state , surface plasmon polariton , surface (topology) , physics , optoelectronics , optics , materials science , condensed matter physics , quantum mechanics , telecommunications , computer science , geometry , mathematics , combinatorics

In article number 1900237 by Jiaguang Han and co‐workers, N ‐fold quasicrystals reveal multiple‐direction surface plasmon propagation. By introducing the array factor, three types of tunable on‐chip surface plasmon sources based on quasicrystal metasurfaces are achieved. The excited surface plasmon propagation modes can be controlled by the spin‐state of the incident light. They are promising to be used in on‐chip systems with unique functionalities.

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