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    Journals >Study On Optical Communications >Volume 49 >Issue 6 >Page 11 > Article
    • Study On Optical Communications
    • Vol. 49, Issue 6, 11 (2023)
    Recent Progress and Comment on Metasurface Devices based on Two-photon 3D Printing
    Mian WU1, Lin WU1,a, and Jin TAO1,2,*
    Author Affiliations
  • 1a. National Key Laboratory of Optical Communication Technologies and Networks; b. National Optoelectronics Innovation Center, China Information Communication Technologies Group Corporation, Wuhan 430074, China
  • 2Peng Cheng Laboratory, Shenzhen 518000, China
    • show less
    DOI: 10.13756/j.gtxyj.2023.06.002 Cite this Article
    Mian WU, Lin WU, Jin TAO. Recent Progress and Comment on Metasurface Devices based on Two-photon 3D Printing[J]. Study On Optical Communications, 2023, 49(6): 11 Copy Citation Text show less
    The schematic diagram of one-photon and two-photon 3D printing
    Fig. 1. The schematic diagram of one-photon and two-photon 3D printing
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    The schematic diagram of fabrication of reciprocal plasmonic metasurface and its reflection spectrum[29]
    Fig. 2. The schematic diagram of fabrication of reciprocal plasmonic metasurface and its reflection spectrum[29]
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    The schematic diagram of stereostructured U-shaped resonator metallic film[30]
    Fig. 3. The schematic diagram of stereostructured U-shaped resonator metallic film[30]
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    The microring zone metasurface probe[31]
    Fig. 4. The microring zone metasurface probe[31]
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    The Plasmonic nanoantenna for SEIRA fabricated by the first method[32]
    Fig. 5. The Plasmonic nanoantenna for SEIRA fabricated by the first method[32]
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    The second method of fabricating plasmonic nanoantenna for SEIRA[33]
    Fig. 6. The second method of fabricating plasmonic nanoantenna for SEIRA[33]
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    The procedure diagram of plasmonic metasurface fabrication by two-photon 3D printing
    Fig. 7. The procedure diagram of plasmonic metasurface fabrication by two-photon 3D printing
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    Metallic slit microlens[38]
    Fig. 8. Metallic slit microlens[38]
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    The multilayer planar lens[39]
    Fig. 9. The multilayer planar lens[39]
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    The SLAC flat lens[40]
    Fig. 10. The SLAC flat lens[40]
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    HAML[41]
    Fig. 11. HAML[41]
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    CMCD[42]
    Fig. 12. CMCD[42]
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    The fabrication and focusing effect of SOL[43]
    Fig. 13. The fabrication and focusing effect of SOL[43]
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    The two-color anisotropic nanoemitter[44]
    Fig. 14. The two-color anisotropic nanoemitter[44]
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    The nanoscale full color and grayscale 3D painting[45]
    Fig. 15. The nanoscale full color and grayscale 3D painting[45]
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    The reconfigurable hologram metasurface[46]
    Fig. 16. The reconfigurable hologram metasurface[46]
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    The principle of designing complex-amplitude OAM holography in momentum space[47]
    Fig. 17. The principle of designing complex-amplitude OAM holography in momentum space[47]
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    The schematic diagram of decryption function implemented by the all-optical MLD [48]
    Fig. 18. The schematic diagram of decryption function implemented by the all-optical MLD [48]
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    The SZP structure on the fiber facet fabricated by two-photon 3D printing[49]
    Fig. 19. The SZP structure on the fiber facet fabricated by two-photon 3D printing[49]
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    The KSZP structure on the composite fiber facet fabricated by two-photon 3D printing[50]
    Fig. 20. The KSZP structure on the composite fiber facet fabricated by two-photon 3D printing[50]
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    Ultrahigh NA meta-fiber[51]
    Fig. 21. Ultrahigh NA meta-fiber[51]
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    The achromatic meta-fiber for achromatic focusing and imaging[52]
    Fig. 22. The achromatic meta-fiber for achromatic focusing and imaging[52]
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    A 3D radar-like SERS sensor fabricated on an optical fiber[53]
    Fig. 23. A 3D radar-like SERS sensor fabricated on an optical fiber[53]
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    The schematic of the fabrication process of SERS arrays sensor probes on the fiber facets by two-photon 3D printing[54]
    Fig. 24. The schematic of the fabrication process of SERS arrays sensor probes on the fiber facets by two-photon 3D printing[54]
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    Integrated optical elements on fiber facets fabricated by two-photon 3D printing[18]
    Fig. 25. Integrated optical elements on fiber facets fabricated by two-photon 3D printing[18]
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    Mian WU, Lin WU, Jin TAO. Recent Progress and Comment on Metasurface Devices based on Two-photon 3D Printing[J]. Study On Optical Communications, 2023, 49(6): 11
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