High-efficiency all-dielectric transmission metasurface for linearly polarized light in the visible region Download: 1040次
1 State Key Laboratory of Information Photonics and Optical Communications, Beijing University of Posts and Telecommunications, Beijing 100876, China
2 School of Science, Beijing University of Posts and Telecommunications, Beijing 100876, China
Figures & Tables
Fig. 1. Schematic of the homogeneous metasurface composed of rectangular crystalline silicon posts based on silica film.
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Fig. 2. (a) Transmission and phase of the periodic c-silicon posts with 190 nm unit cell size and 220 nm height for different cross-section lengths at the wavelength of 751 nm. (b) Magnetic field amplitudes in the x–z plane (Hxz) for w=120 nm and w=180 nm at wavelength of 751 nm. (c) Vertical view of the compactly arranged silicon posts. (d) Vertical view of the period formed by filling the gaps between the silicon posts.
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Fig. 3. Schematic of the proposed silicon phase-gradient metasurface composed of trapezoidal antenna arrays on a quartz substrate.
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Fig. 4. Simulated phase and the electric field amplitude variation for silicon nanoantenna thickness h=290 nm. (a) Simulated phase variation along the x direction of the super cell for wavelengths of 740–780 nm; (b) full 2π phase shift along the x direction of the super cell for typical wavelengths of 740, 751, 760, and 770 nm; (c) intensity of the transmission, reflection, and absorption; and (d) the transmission of every layer of the metasurface.
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Fig. 5. (a) Simulated transmission efficiency normalized to input energy and the transmission energy of the quartz substrate for wavelengths of 740–780 nm. (b) Far-field transmission efficiency (normalized to input energy) for different anomalous refraction angles (θr) at wavelength of 751 nm, where the inset shows the E-field (Ey) distribution for the refracted light with the propagation being signified by a red arrow at wavelength of 751 nm.
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Fig. 6. (a) Schematic of assumptive unit cell composed of rectangular silicon post arrays on quartz substrate. (b), (c) Simulated transmission and reflection of the unit cell with various thickness h of silicon posts for wavelengths of 720–780 nm (the marked dashed lines indicate the variation of transmission and reflection at wavelength of 751 nm). (d) Transmission, reflection, and absorption of the unit cell at wavelength of 751 nm.
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Fig. 7. Transmission efficiency with the fixed geometric parameters of the silicon trapezoidal antennas. (a) Simulated transmission efficiency normalized to input energy and the transmission energy of the quartz substrate for wavelengths of 720–780 nm, and (b) far-field transmission efficiency (normalized to input energy) for different anomalous refraction angles (θr).
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Fig. 8. (a) Calculated total transmission at different values of w1. (b) Calculated desired anomalous refraction efficiency at different values of w1.
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Table1. Cross-Section Lengths of the Silicon Posts
Unit cell (phase) | (45°) | (90°) | (135°) | (180°) | (225°) | (270°) | (315°) | (360°) | (nm) | 82 | 102 | 116 | 132 | 144 | 155 | 172 | 184 |
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Table2. Geometrical Parameters of the Designed Super Cell
Parameter | | | | | | | Value | 82 nm | 152 nm | 887 nm | 290 nm | 1 μm | 1 μm |
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Table3. Calculation and Simulation Angles for All Diffraction Orders without 0 Order and Negative Angle of Symmetry
(nm) | 741 | 751 | 766 | 768 | | 0.4875 | 0.4941 | 0.5039 | 0.5053 | Calculation angle (°) | 1 order | 29.1877 | 29.6241 | 30.2587 | 30.3518 | 2 order | 77.2506 | 81.3458 | — | — | Simulation angle (°) | 1 order | 29.1877 | 29.6241 | 30.2587 | 30.3517 | 2 order | 77.2505 | 81.3458 | — | — |
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Liu Yang, Dong Wu, Yumin Liu, Chang Liu, Zenghui Xu, Hui Li, Zhongyuan Yu, Li Yu, Han Ye. High-efficiency all-dielectric transmission metasurface for linearly polarized light in the visible region[J]. Photonics Research, 2018, 6(6): 06000517.