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    Journals >Laser & Optoelectronics Progress >Volume 57 >Issue 13 >Page 132304 > Article
    • Laser & Optoelectronics Progress
    • Vol. 57, Issue 13, 132304 (2020)
    Design of Polarization Preserving Corner-Cube Reflector Based on Goos-Hänchen Displacement
    Lisha Xie1 and Chunhui Huang1、2、*
    Author Affiliations
  • 1College of Physics and Information Engineering, Fuzhou University, Fuzhou, Fujian 350116, China
  • 2College of Artificial Intelligence, Yango University, Fuzhou, Fujian 350015, China
    • show less
    DOI: 10.3788/LOP57.132304 Cite this Article Set citation alerts
    Lisha Xie, Chunhui Huang. Design of Polarization Preserving Corner-Cube Reflector Based on Goos-Hänchen Displacement[J]. Laser & Optoelectronics Progress, 2020, 57(13): 132304 Copy Citation Text show less
    Transmission of light in a corner cube and its reflection order. (a) Transmission path; (b) reflection order
    Fig. 1. Transmission of light in a corner cube and its reflection order. (a) Transmission path; (b) reflection order
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    Relationship of film thickness and Goos-H?nchen displacement[12]
    Fig. 2. Relationship of film thickness and Goos-H?nchen displacement[12]
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    Model of corner cube coated thin films
    Fig. 3. Model of corner cube coated thin films
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    Electric field distribution at the interfaceof dielectric film
    Fig. 4. Electric field distribution at the interfaceof dielectric film
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    Pseudocode of PSO algorithm
    Fig. 5. Pseudocode of PSO algorithm
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    Simulation model of corner cube coated thin film structure
    Fig. 6. Simulation model of corner cube coated thin film structure
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    Transmission of evanescent wave. (a) Electric field pattern; (b) s component of electric field
    Fig. 7. Transmission of evanescent wave. (a) Electric field pattern; (b) s component of electric field
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    Enlarged view of transmission of evanescent wave in Fig. 7. (a) Electric field pattern; (b) s component of electric field
    Fig. 8. Enlarged view of transmission of evanescent wave in Fig. 7. (a) Electric field pattern; (b) s component of electric field
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    Definition of coordinate system for describing polarization state
    Fig. 9. Definition of coordinate system for describing polarization state
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    Normalized Stokes parameters of output light and incident light. (a) S1; (b) S2; (c) S3
    Fig. 10. Normalized Stokes parameters of output light and incident light. (a) S1; (b) S2; (c) S3
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    Deviation of azimuth and ellipticity of actual output light in different transmission paths with respect to ideal output light. (a) Azimuth; (b) ellipticity
    Fig. 11. Deviation of azimuth and ellipticity of actual output light in different transmission paths with respect to ideal output light. (a) Azimuth; (b) ellipticity
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    Refractive indexof thin film 2Film thickness /nm
    Thin film 1Thin film 2
    5.306282.174372.933
    5.189201.000371.188
    5.524269.144276.685
    4.697215.275356.227
    4.482212.416307.876
    5.085210.159316.276
    Table 1. Simulation results of thin film parameters
    Abstract
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    Lisha Xie, Chunhui Huang. Design of Polarization Preserving Corner-Cube Reflector Based on Goos-Hänchen Displacement[J]. Laser & Optoelectronics Progress, 2020, 57(13): 132304
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    Paper Information
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