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    Journals >Chinese Optics Letters >Volume 17 >Issue 11 >Page 112201 > Article
    • Chinese Optics Letters
    • Vol. 17, Issue 11, 112201 (2019)
    Stitching swing arm profilometer test for large aperture aspherics
    Ling Xiong, Erhui Qi, Xiao Luo*, Feng Zhang..., Donglin Xue and Xuejun Zhang|Show fewer author(s)
    Author Affiliations
  • Key Laboratory of Optical System Advanced Manufacturing Technology, Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, Changchun 130033, China
    • show less
    DOI: 10.3788/COL201917.112201 Cite this Article Set citation alerts
    Ling Xiong, Erhui Qi, Xiao Luo, Feng Zhang, Donglin Xue, Xuejun Zhang, "Stitching swing arm profilometer test for large aperture aspherics," Chin. Opt. Lett. 17, 112201 (2019) Copy Citation Text show less
    Principle of the SAP test.
    Fig. 1. Principle of the SAP test.
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    Profiling pattern of 64 scan arcs used for measuring the 1.4 m convex asphere; coordinate units are mm (Ref. [1], Fig. 3).
    Fig. 2. Profiling pattern of 64 scan arcs used for measuring the 1.4 m convex asphere; coordinate units are mm (Ref. [1], Fig. 3).
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    Profile pattern of 72 scan circles.
    Fig. 3. Profile pattern of 72 scan circles.
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    Geometrical diagram of Q intersections.
    Fig. 4. Geometrical diagram of Q intersections.
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    Area distribution of corresponding gridding of the intersections.
    Fig. 5. Area distribution of corresponding gridding of the intersections.
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    Normalized sampling area density distribution of different scan arcs used.
    Fig. 6. Normalized sampling area density distribution of different scan arcs used.
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    (a) Profile pattern and (b) geometrical diagram of Q intersections for the outer region of the SSAP test.
    Fig. 7. (a) Profile pattern and (b) geometrical diagram of Q intersections for the outer region of the SSAP test.
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    (a) Stitching profile pattern for 3 m diameter mirror. (b) Ratio of sampling area density.
    Fig. 8. (a) Stitching profile pattern for 3 m diameter mirror. (b) Ratio of sampling area density.
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    (a) Calibration of sensor on SPDT and (b) noise from the sensor.
    Fig. 9. (a) Calibration of sensor on SPDT and (b) noise from the sensor.
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    Noise of the SAP system with arm length of 758 mm.
    Fig. 10. Noise of the SAP system with arm length of 758 mm.
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    Noise of the SSAP system with arm length of 467 mm.
    Fig. 11. Noise of the SSAP system with arm length of 467 mm.
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    SAP in situ measuring a 3 m concave aspheric mirror with swing radius of 758 mm.
    Fig. 12. SAP in situ measuring a 3 m concave aspheric mirror with swing radius of 758 mm.
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    (a), (b) Comparison of SAP test data in 72 scan arcs. (c) Difference with first 37 low-order Zernike aberration terms removed.
    Fig. 13. (a), (b) Comparison of SAP test data in 72 scan arcs. (c) Difference with first 37 low-order Zernike aberration terms removed.
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    (a), (b) Comparison of SAP test data in 144 scan arcs. (c) Difference with 37 low-order Zernike aberration terms removed.
    Fig. 14. (a), (b) Comparison of SAP test data in 144 scan arcs. (c) Difference with 37 low-order Zernike aberration terms removed.
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    SAP in situ measuring with small swing radius of 460 mm. (a) Scan test for inner region. (b) Scan test for outer region.
    Fig. 15. SAP in situ measuring with small swing radius of 460 mm. (a) Scan test for inner region. (b) Scan test for outer region.
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    (a), (b) SSAP test results for 3 m mirror. (c) Test repeatability with 37 low-order Zernike aberration terms removed.
    Fig. 16. (a), (b) SSAP test results for 3 m mirror. (c) Test repeatability with 37 low-order Zernike aberration terms removed.
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    Ling Xiong, Erhui Qi, Xiao Luo, Feng Zhang, Donglin Xue, Xuejun Zhang, "Stitching swing arm profilometer test for large aperture aspherics," Chin. Opt. Lett. 17, 112201 (2019)
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    Paper Information
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