Controllability of surface plasmon polariton far-field radiation using a metasurface

Wanxia Huang; Xiyue Zhang; Qianjin Wang; Maosheng Wang; Chaogang Li; Kuanguo Li; Xinyan Yang; Jianping Shi

doi:10.1364/PRJ.7.000728

Journals >Photonics Research >Volume 7 >Issue 7 >Page 728 > Article

Photonics Research
Vol. 7, Issue 7, 728 (2019)

Controllability of surface plasmon polariton far-field radiation using a metasurface

Wanxia Huang^1、*, Xiyue Zhang², Qianjin Wang³, Maosheng Wang¹, Chaogang Li¹, Kuanguo Li¹, Xinyan Yang¹, and Jianping Shi¹

Author Affiliations

¹College of Physics and Electronic Information, Anhui Normal University, Wuhu 241000, China

²State Key Laboratory of Surface Physics and Department of Physics, Fudan University, Shanghai 200433, China

³National Laboratory of Solid State Microstructures, Nanjing University, Nanjing 210093, China

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DOI: 10.1364/PRJ.7.000728 Cite this Article Set citation alerts

Wanxia Huang, Xiyue Zhang, Qianjin Wang, Maosheng Wang, Chaogang Li, Kuanguo Li, Xinyan Yang, Jianping Shi. Controllability of surface plasmon polariton far-field radiation using a metasurface[J]. Photonics Research, 2019, 7(7): 728 Copy Citation Text

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Fig. 1. Scheme of the unit cell and corresponding coordinate system.

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(a), (c), and (e) Calculated and (b), (d), and (f) simulated transmittance spectra of the nanostructure corresponding to the different angles of rotation for y polarization. Here, the solid red (dashed green) curves represent the SPPs of the interface between metal and glass (metal and air); the blue solid curves represent the simulated spectra.

Fig. 2. (a), (c), and (e) Calculated and (b), (d), and (f) simulated transmittance spectra of the nanostructure corresponding to the different angles of rotation for y polarization. Here, the solid red (dashed green) curves represent the SPPs of the interface between metal and glass (metal and air); the blue solid curves represent the simulated spectra.

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Fig. 3. Coordinate vector picture of the metasurface.

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Fig. 4. (a) and (b) Schematic diagrams of our supercell. (c) SEM image of the sample with scale bars of 1000 and 800 nm.

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Fig. 5. (a) and (b) Calculated, (c) and (d) simulated, and (e) and (f) measured spectra of metasurface.

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Fig. 6. (a) Transmittance intensity, (b) reflection intensity, (c) transmittance phase, and (d) reflection phase diagrams of the test metasurface with nanoslit rotation angles under normal incident plane wave with y polarization.

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