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    Journals >Acta Optica Sinica >Volume 43 >Issue 15 >Page 1512001 > Article
    • Acta Optica Sinica
    • Vol. 43, Issue 15, 1512001 (2023)
    Key Technologies of Quadri-Wave Lateral Shearing Interferometer
    Ke Liu*, Xiaotian Zhang, Hui Zhong, Fei He, Shuhao Liu, and Yanqiu Li**
    Author Affiliations
  • Key Laboratory of Optoelectronic Imaging Technology and System, Ministry of Education, School of Optics and Photonics, Beijing Institute of Technology, Beijing 100081, China
    • show less
    DOI: 10.3788/AOS230738 Cite this Article Set citation alerts
    Ke Liu, Xiaotian Zhang, Hui Zhong, Fei He, Shuhao Liu, Yanqiu Li. Key Technologies of Quadri-Wave Lateral Shearing Interferometer[J]. Acta Optica Sinica, 2023, 43(15): 1512001 Copy Citation Text show less
    Schematic of quadri-wave lateral shearing interferometer
    Fig. 1. Schematic of quadri-wave lateral shearing interferometer
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    Schematic of beam splitter components with QWLSI. (a1) Ideal sinusoidal grating; (a2) ideal amplitude grating; (b1) improved Hartmann mask; (b2) binary amplitude grating ; (c1) random encoded grating; (c2) random encoded amplitude grating; (d) phase grating
    Fig. 2. Schematic of beam splitter components with QWLSI. (a1) Ideal sinusoidal grating; (a2) ideal amplitude grating; (b1) improved Hartmann mask; (b2) binary amplitude grating ; (c1) random encoded grating; (c2) random encoded amplitude grating; (d) phase grating
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    Diagrams of transmittance of different gratings[44]. (a) Randomly encoded hybrid grating based on luminous flux constraint (encoding coefficient (A,B) is (20,3)); (b) randomly encoded hybrid grating based on luminous flux constraint (encoding coefficient (A,B) is (30,2)); (c) quantized grating corresponding to globally random encoded hybrid grating in a single period (D×D is 40×40); (d) ideal two-dimensional sinusoidal grating in a single period
    Fig. 3. Diagrams of transmittance of different gratings[44]. (a) Randomly encoded hybrid grating based on luminous flux constraint (encoding coefficient (A,B) is (20,3)); (b) randomly encoded hybrid grating based on luminous flux constraint (encoding coefficient (A,B) is (30,2)); (c) quantized grating corresponding to globally random encoded hybrid grating in a single period (D×D is 40×40); (d) ideal two-dimensional sinusoidal grating in a single period
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    Image processing flow chart of QWLSI
    Fig. 4. Image processing flow chart of QWLSI
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    Quadri-wave lateral shearing interferometer. (a) Photo; (b) interferogram processing control panel
    Fig. 5. Quadri-wave lateral shearing interferometer. (a) Photo; (b) interferogram processing control panel
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    Zero-check test optical path for quadri-wave lateral shearing interferometer
    Fig. 6. Zero-check test optical path for quadri-wave lateral shearing interferometer
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    Experimental system for dynamic response testing of quadri-wave lateral shearing interferometer
    Fig. 7. Experimental system for dynamic response testing of quadri-wave lateral shearing interferometer
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    Partial measurement results of quadri-wave lateral shearing interferometer and Shack-Hartmann wavefront sensors for the single Zernike aberration response. (a) Z4; (b) Z8; (c) Z18; (d) Z20; (e) Z23; (f) Z32
    Fig. 8. Partial measurement results of quadri-wave lateral shearing interferometer and Shack-Hartmann wavefront sensors for the single Zernike aberration response. (a) Z4; (b) Z8; (c) Z18; (d) Z20; (e) Z23; (f) Z32
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    Ke Liu, Xiaotian Zhang, Hui Zhong, Fei He, Shuhao Liu, Yanqiu Li. Key Technologies of Quadri-Wave Lateral Shearing Interferometer[J]. Acta Optica Sinica, 2023, 43(15): 1512001
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    Paper Information
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