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    Journals >Journal of Applied Optics >Volume 43 >Issue 4 >Page 744 > Article
    • Journal of Applied Optics
    • Vol. 43, Issue 4, 744 (2022)
    Research progress of active metasurfaces based on liquid crystals
    Chang PENG1,1, Zile LI1,1,1,1, Zhixue HE1,1, and Guoxing ZHENG1,1,1,1,*
    Author Affiliations
  • 11Electronic Information School, Wuhan University, Wuhan 430072, China
  • 12Department of Circuits and Systems, Peng Cheng Laboratory, Shenzhen 518055, China
    • show less
    DOI: 10.5768/JAO202243.0405001 Cite this Article
    Chang PENG, Zile LI, Zhixue HE, Guoxing ZHENG. Research progress of active metasurfaces based on liquid crystals[J]. Journal of Applied Optics, 2022, 43(4): 744 Copy Citation Text show less
    Active metasurfaces based on liquid crystals
    Fig. 1. Active metasurfaces based on liquid crystals
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    Dynamic holographic display of liquid crystal wave plate set before metasurface
    Fig. 2. Dynamic holographic display of liquid crystal wave plate set before metasurface
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    Dynamic holographic display of liquid crystal wave plate set behind metasurface
    Fig. 3. Dynamic holographic display of liquid crystal wave plate set behind metasurface
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    Focus position control of metalens based on liquid crystal wave plate
    Fig. 4. Focus position control of metalens based on liquid crystal wave plate
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    Transmittance modulation of single-wavelength incident light based on liquid crystal wave plate
    Fig. 5. Transmittance modulation of single-wavelength incident light based on liquid crystal wave plate
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    Structural-color modulation of white incident light based on liquid crystal wave plate
    Fig. 6. Structural-color modulation of white incident light based on liquid crystal wave plate
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    Tunable circular dichroism of metasurface based on liquid crystal
    Fig. 7. Tunable circular dichroism of metasurface based on liquid crystal
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    Parameter optimization process of metasurface for refractive index of liquid crystal as variable
    Fig. 8. Parameter optimization process of metasurface for refractive index of liquid crystal as variable
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    Complementation of optical properties with liquid crystal and metasurface
    Fig. 9. Complementation of optical properties with liquid crystal and metasurface
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    Resonance characteristics modulation of metasurface based on temperature-controlled liquid crystal
    Fig. 10. Resonance characteristics modulation of metasurface based on temperature-controlled liquid crystal
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    Resonance characteristics modulation of metasurface based on electronic-controlled liquid crystal
    Fig. 11. Resonance characteristics modulation of metasurface based on electronic-controlled liquid crystal
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    Abstract
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    References (69)
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    Chang PENG, Zile LI, Zhixue HE, Guoxing ZHENG. Research progress of active metasurfaces based on liquid crystals[J]. Journal of Applied Optics, 2022, 43(4): 744
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