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    Journals >Infrared and Laser Engineering >Volume 49 >Issue 8 >Page 20190568 > Article
    • Infrared and Laser Engineering
    • Vol. 49, Issue 8, 20190568 (2020)
    Design of the phase precise adjustment mechanism of the CCR array and its phase-locked experiment
    Tao Yu1, Xinyang Li2, Feng Li2, and Chao Geng2
    Author Affiliations
  • 1Key Laboratory on Adaptive Optics, Chinese Academy of Sciences, Chengdu 610209, China
  • 2Key Laboratory on Adaptive Optics, Chinese Academy of Sciences, Chengdu 610209, China
    • show less
    DOI: 10.3788/IRLA20190568 Cite this Article
    Tao Yu, Xinyang Li, Feng Li, Chao Geng. Design of the phase precise adjustment mechanism of the CCR array and its phase-locked experiment[J]. Infrared and Laser Engineering, 2020, 49(8): 20190568 Copy Citation Text show less
    Corner cube reflector array
    Fig. 1. Corner cube reflector array
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    Simulation of seven units far field intensity distribution. (a) Random piston phase difference far field intensity distribution,(b) No piston phase difference far field intensity distribution,(c) Horizontal axis light intensity curve,(d) longitudinal axis light intensity curve
    Fig. 2. Simulation of seven units far field intensity distribution. (a) Random piston phase difference far field intensity distribution,(b) No piston phase difference far field intensity distribution,(c) Horizontal axis light intensity curve,(d) longitudinal axis light intensity curve
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    Light path of far field intensity distribution of CCR array reflected beam
    Fig. 3. Light path of far field intensity distribution of CCR array reflected beam
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    Working principles of phase adjustment mechanism of the CCR array
    Fig. 4. Working principles of phase adjustment mechanism of the CCR array
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    Exploded diagram of phase adjustment mechanism of the CCR array
    Fig. 5. Exploded diagram of phase adjustment mechanism of the CCR array
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    Phase adjustment mechanism of the CCR array
    Fig. 6. Phase adjustment mechanism of the CCR array
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    Single far field intensity distribution. (a) Experimental far field intensity distribution, (b) Simulation far field intensity distribution
    Fig. 7. Single far field intensity distribution. (a) Experimental far field intensity distribution, (b) Simulation far field intensity distribution
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    Two units correction far field intensity distribution. (a) Far field intensity distribution before correction, (b) Corrected far field intensity distribution
    Fig. 8. Two units correction far field intensity distribution. (a) Far field intensity distribution before correction, (b) Corrected far field intensity distribution
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    Three units correction experiment. (a)1,3 units far field intensity distribution, (b) 1,2 units far field intensity distribution, (c) Experiment of three units correction far field intensity distribution, (d) Simulation of three units correction far field intensity distribution
    Fig. 9. Three units correction experiment. (a)1,3 units far field intensity distribution, (b) 1,2 units far field intensity distribution, (c) Experiment of three units correction far field intensity distribution, (d) Simulation of three units correction far field intensity distribution
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    Curve of three units far field intensity section
    Fig. 10. Curve of three units far field intensity section
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    Abstract
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    References (10)
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    Tao Yu, Xinyang Li, Feng Li, Chao Geng. Design of the phase precise adjustment mechanism of the CCR array and its phase-locked experiment[J]. Infrared and Laser Engineering, 2020, 49(8): 20190568
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    Paper Information
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