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    Journals >Acta Photonica Sinica >Volume 51 >Issue 1 >Page 0151111 > Article
    • Acta Photonica Sinica
    • Vol. 51, Issue 1, 0151111 (2022)
    Linear-crossing Metamaterials and Their Applications(Invited)
    Zhiwei GUO, Haitao JIANG, and Hong CHEN*
    Author Affiliations
  • Key Laboratory of Advanced Microstructure Materials Ministry of Education,School of Physics Science and Engineering,Tongji University,Shanghai 200092,China
    • show less
    DOI: 10.3788/gzxb20225101.0151111 Cite this Article
    Zhiwei GUO, Haitao JIANG, Hong CHEN. Linear-crossing Metamaterials and Their Applications(Invited)[J]. Acta Photonica Sinica, 2022, 51(1): 0151111 Copy Citation Text show less
    Hyperbolic topological transition from the metal-type hyperbolic dispersion to dielectric-type hyperbolic dispersion[21]
    Fig. 1. Hyperbolic topological transition from the metal-type hyperbolic dispersion to dielectric-type hyperbolic dispersion21
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    Control of hyperbolic topological phase transition on electromagnetic wave propagation
    Fig. 2. Control of hyperbolic topological phase transition on electromagnetic wave propagation
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    Realization of LCMMs[17]
    Fig. 3. Realization of LCMMs17
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    Hyperbolic topological transition in ENG/MNG multilayered structure
    Fig. 4. Hyperbolic topological transition in ENG/MNG multilayered structure
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    LCMM realized by two-dimensional photonic crystals[20]
    Fig. 5. LCMM realized by two-dimensional photonic crystals20
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    LCMM realized by natural 2D material[23]
    Fig. 6. LCMM realized by natural 2D material23
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    Directional transmission realized by LCMM[19]
    Fig. 7. Directional transmission realized by LCMM19
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    Negative refraction realized by LCMM[21]
    Fig. 8. Negative refraction realized by LCMM21
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    Schematics of TLCMM EM-wave responses[22]
    Fig. 9. Schematics of TLCMM EM-wave responses22
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    Positive/Negative refraction without reflection realized by LCMM[22]
    Fig. 10. Positive/Negative refraction without reflection realized by LCMM22
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    Focusing with partial cloaking based on multilayered LCMMs[21]
    Fig. 11. Focusing with partial cloaking based on multilayered LCMMs21
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    Circuit-based LCMMs constructed by transmission lines[19]
    Fig. 12. Circuit-based LCMMs constructed by transmission lines19
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    Super-resolution imaging with partial cloaking realized by circuit-based LCMM[19]
    Fig. 13. Super-resolution imaging with partial cloaking realized by circuit-based LCMM19
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    Bessel beam with self-healing in LCMM[21]
    Fig. 14. Bessel beam with self-healing in LCMM21
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    Spatial filtering using TLCMM[22]
    Fig. 15. Spatial filtering using TLCMM22
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    Spatial filtering realized by circuit-based TLCMM[22]
    Fig. 16. Spatial filtering realized by circuit-based TLCMM22
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    Abstract
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    References (121)
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    Zhiwei GUO, Haitao JIANG, Hong CHEN. Linear-crossing Metamaterials and Their Applications(Invited)[J]. Acta Photonica Sinica, 2022, 51(1): 0151111
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