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    Journals >Infrared and Laser Engineering >Volume 51 >Issue 1 >Page 20210454 > Article
    • Infrared and Laser Engineering
    • Vol. 51, Issue 1, 20210454 (2022)
    Review on athermalized infrared imaging technology based on wavefront coding (Invited)
    Zelin Shi1、2, Bin Feng1、2、3、*, and Ping Feng3
    Author Affiliations
  • 1Key Laboratory of Opto-electronic Information Processing, Chinese Academy of Sciences, Shenyang 110016, China
  • 2Shenyang Institute of Automation, Chinese Academy of Sciences, Shenyang 110016, China
  • 3School of Automation, Northwestern Polytechnical University, Xi’an 710072, China
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    DOI: 10.3788/IRLA20210454 Cite this Article
    Zelin Shi, Bin Feng, Ping Feng. Review on athermalized infrared imaging technology based on wavefront coding (Invited)[J]. Infrared and Laser Engineering, 2022, 51(1): 20210454 Copy Citation Text show less
    Schematic diagram of wavefront coding infrared imaging link
    Fig. 1. Schematic diagram of wavefront coding infrared imaging link
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    Decoded images by Heriot-Watt University[19]. (a) Spatially-invariant Lucy-Richardson algorithm; (b) Spatially variant Van-Cittert algorithm
    Fig. 2. Decoded images by Heriot-Watt University[19]. (a) Spatially-invariant Lucy-Richardson algorithm; (b) Spatially variant Van-Cittert algorithm
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    Decoded image by Qioptiq Ltd[35]. (a) 30 m; (b) 125 m
    Fig. 3. Decoded image by Qioptiq Ltd[35]. (a) 30 m; (b) 125 m
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    Wavefront coding infrared imaging system of ZnSe phase mask[27]
    Fig. 4. Wavefront coding infrared imaging system of ZnSe phase mask[27]
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    ZnSe phase mask,Left: Uncoated, Right: Coated[27]
    Fig. 5. ZnSe phase mask,Left: Uncoated, Right: Coated[27]
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    Athermalization experimental results of wavefront coding infrared imaging system with ZnSe phase mask[27]
    Fig. 6. Athermalization experimental results of wavefront coding infrared imaging system with ZnSe phase mask[27]
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    Wavefront coding infrared imaging system with Ge-material phase mask[26]
    Fig. 7. Wavefront coding infrared imaging system with Ge-material phase mask[26]
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    Ge-material phase mask. Left: Coated; Right: Uncoated[26]
    Fig. 8. Ge-material phase mask. Left: Coated; Right: Uncoated[26]
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    Room-temperature experiment results of wavefront coding infrared imaging system with Ge-material phase mask[25]
    Fig. 9. Room-temperature experiment results of wavefront coding infrared imaging system with Ge-material phase mask[25]
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    Athermalization experimental results of wavefront coding infrared imaging system with Ge-material phase mask[26]
    Fig. 10. Athermalization experimental results of wavefront coding infrared imaging system with Ge-material phase mask[26]
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    Wavefront coding infrared imaging system with two lenses and wide field of view[23]
    Fig. 11. Wavefront coding infrared imaging system with two lenses and wide field of view[23]
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    Aspheric (left) and cubic (middle) surface of phase mask mounted in wide-FoV wavefront coding infrared imaging system[23]
    Fig. 12. Aspheric (left) and cubic (middle) surface of phase mask mounted in wide-FoV wavefront coding infrared imaging system[23]
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    Athermalization experimental results of wavefront coding infrared imaging system with two lenses and wide FoV[23]
    Fig. 13. Athermalization experimental results of wavefront coding infrared imaging system with two lenses and wide FoV[23]
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    Zelin Shi, Bin Feng, Ping Feng. Review on athermalized infrared imaging technology based on wavefront coding (Invited)[J]. Infrared and Laser Engineering, 2022, 51(1): 20210454
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