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    Journals >Acta Photonica Sinica >Volume 51 >Issue 5 >Page 0551304 > Article
    • Acta Photonica Sinica
    • Vol. 51, Issue 5, 0551304 (2022)
    Dynamically Tunable Optical Materials and Devices Based on Phase Transition of Vanadium Dioxide(Invited)
    Renhao FAN, Benqi HOU, Ruwen PENG*, and Mu WANG
    Author Affiliations
  • National Laboratory of Solid State Microstructures and School of Physics,Nanjing University,Nanjing 210093,China
    • show less
    DOI: 10.3788/gzxb20225105.0551304 Cite this Article
    Renhao FAN, Benqi HOU, Ruwen PENG, Mu WANG. Dynamically Tunable Optical Materials and Devices Based on Phase Transition of Vanadium Dioxide(Invited)[J]. Acta Photonica Sinica, 2022, 51(5): 0551304 Copy Citation Text show less
    Monoclinic and rutile crystal structures of vanadium dioxide[109]
    Fig. 1. Monoclinic and rutile crystal structures of vanadium dioxide109
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    Band structure of vanadium dioxide in metallic and insulating states[113]
    Fig. 2. Band structure of vanadium dioxide in metallic and insulating states113
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    The phase diagram of a vanadium dioxide thin film and the resistance-temperature curve[125]
    Fig. 3. The phase diagram of a vanadium dioxide thin film and the resistance-temperature curve125
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    Determined emissivity evolution of a vanadium dioxide thin film for increasing temperature[126]
    Fig. 4. Determined emissivity evolution of a vanadium dioxide thin film for increasing temperature126
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    Typical structures effectively improve the performance of smart window based on vanadium dioxide[96]
    Fig. 5. Typical structures effectively improve the performance of smart window based on vanadium dioxide96
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    Phase transition of vanadium dioxide based on electrical excitation[71,136,138,143]
    Fig. 6. Phase transition of vanadium dioxide based on electrical excitation71136138143
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    Transitional structures in phase transformations of vanadium dioxide by electron diffraction[146]
    Fig. 7. Transitional structures in phase transformations of vanadium dioxide by electron diffraction146
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    Dynamically tunable optical materials and devices based on phase transition of vanadium dioxide
    Fig. 8. Dynamically tunable optical materials and devices based on phase transition of vanadium dioxide
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    Tunable optical materials and devices realized by vanadium dioxide combined with plasmonic structures[62,67,83,157]
    Fig. 9. Tunable optical materials and devices realized by vanadium dioxide combined with plasmonic structures626783157
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    Tunable optical materials and devices realized by vanadium dioxide combined with metamaterials[85,99,167,175]
    Fig. 10. Tunable optical materials and devices realized by vanadium dioxide combined with metamaterials8599167175
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    Tunable optical materials and devices realized by vanadium dioxide combined with metasurfaces[66,69,187]
    Fig. 11. Tunable optical materials and devices realized by vanadium dioxide combined with metasurfaces6669187
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    Tunable optical materials and devices realized by vanadium dioxide combined with waveguides or gratings[105-106,198]
    Fig. 12. Tunable optical materials and devices realized by vanadium dioxide combined with waveguides or gratings105-106198
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    Renhao FAN, Benqi HOU, Ruwen PENG, Mu WANG. Dynamically Tunable Optical Materials and Devices Based on Phase Transition of Vanadium Dioxide(Invited)[J]. Acta Photonica Sinica, 2022, 51(5): 0551304
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