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    Journals >Infrared and Laser Engineering >Volume 52 >Issue 10 >Page 20230050 > Article
    • Infrared and Laser Engineering
    • Vol. 52, Issue 10, 20230050 (2023)
    Research on the method of co-focus detection for sparse aperture telescope based on curvature sensing
    Qichang An1,2, Xiaoxia Wu1,2, and Hongwen Li1,2
    Author Affiliations
  • 1. Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, Changchun 130033, China
  • 2Jilin Provincial Key Laboratory of Intelligent Wavefront Sensing and Control, Changchun 130033, China
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    DOI: 10.3788/IRLA20230050 Cite this Article
    Qichang An, Xiaoxia Wu, Hongwen Li. Research on the method of co-focus detection for sparse aperture telescope based on curvature sensing[J]. Infrared and Laser Engineering, 2023, 52(10): 20230050 Copy Citation Text show less
    Schematic diagram of curvature sensing
    Fig. 1. Schematic diagram of curvature sensing
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    Co-focus detection method of sparse aperture telescope based on curvature sensing
    Fig. 2. Co-focus detection method of sparse aperture telescope based on curvature sensing
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    Large amplitude wavefront tilt sensing. (a) Tilt wavefront; (b) Reconstruction wavefront; (c) Intensity distribution before focus; (d) Intensity distribution after focus
    Fig. 3. Large amplitude wavefront tilt sensing. (a) Tilt wavefront; (b) Reconstruction wavefront; (c) Intensity distribution before focus; (d) Intensity distribution after focus
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    Small amplitude wavefront tilt. (a) Tilt wavefront; (b) Reconstruction wavefront; (c) Intensity distribution intra-focus; (d) Intensity distribution extra-focus
    Fig. 4. Small amplitude wavefront tilt. (a) Tilt wavefront; (b) Reconstruction wavefront; (c) Intensity distribution intra-focus; (d) Intensity distribution extra-focus
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    Perception and regulation of overall low order aberrations of sub mirror. (a) Tilt wavefront; (b) Reconstruction wavefront; (c) Intensity distribution intra-focus; (d) Intensity distribution extra-focus
    Fig. 5. Perception and regulation of overall low order aberrations of sub mirror. (a) Tilt wavefront; (b) Reconstruction wavefront; (c) Intensity distribution intra-focus; (d) Intensity distribution extra-focus
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    Verification platform for wavefront tilt calculation using deformable mirror
    Fig. 6. Verification platform for wavefront tilt calculation using deformable mirror
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    Verification results of distortion perception of boundary using deformable mirror. (a) Intensity distribution intra-focus; (b) Intensity distribution extra-focus; (c) Wavefront solution results; (d) Low order aberration; (e) Low order aberration estimation
    Fig. 7. Verification results of distortion perception of boundary using deformable mirror. (a) Intensity distribution intra-focus; (b) Intensity distribution extra-focus; (c) Wavefront solution results; (d) Low order aberration; (e) Low order aberration estimation
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    Correlation coefficient of wavefront tilt solution. (a) Initial condition; (b) First correction; (c) Second correction; (d) Third correction
    Fig. 8. Correlation coefficient of wavefront tilt solution. (a) Initial condition; (b) First correction; (c) Second correction; (d) Third correction
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    Closed loop correction process. (a) System diagram; (b) Optical intensity difference before and after focus
    Fig. 9. Closed loop correction process. (a) System diagram; (b) Optical intensity difference before and after focus
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    Abstract
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    Qichang An, Xiaoxia Wu, Hongwen Li. Research on the method of co-focus detection for sparse aperture telescope based on curvature sensing[J]. Infrared and Laser Engineering, 2023, 52(10): 20230050
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