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    Journals >Acta Optica Sinica >Volume 39 >Issue 4 >Page 0412006 > Article
    • Acta Optica Sinica
    • Vol. 39, Issue 4, 0412006 (2019)
    Focusing Performance of Fresnel Lens in Underwater Wireless Optical Transmission System
    Peng Zhang and Shoufeng Tong*
    Author Affiliations
  • National and Local Union Engineering Research Center of Space Optoelectronics Technology, Changchun University of Science and Technology, Changchun, Jilin 130022, China
    • show less
    DOI: 10.3788/AOS201939.0412006 Cite this Article Set citation alerts
    Peng Zhang, Shoufeng Tong. Focusing Performance of Fresnel Lens in Underwater Wireless Optical Transmission System[J]. Acta Optica Sinica, 2019, 39(4): 0412006 Copy Citation Text show less
    Principle of focusing performance measurement of Fresnel lens with large aperture and short focal length
    Fig. 1. Principle of focusing performance measurement of Fresnel lens with large aperture and short focal length
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    Experimental devices for optical performance measurement of Fresnel lens. (a) 450 nm LD; (b) 532 nm LD
    Fig. 2. Experimental devices for optical performance measurement of Fresnel lens. (a) 450 nm LD; (b) 532 nm LD
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    Focusing efficiencies for 450 nm and 532 nm lasers passing through different Fresnel lens surfaces with incident angles of 0°-30°. (a) Smooth surface; (b) serrated face
    Fig. 3. Focusing efficiencies for 450 nm and 532 nm lasers passing through different Fresnel lens surfaces with incident angles of 0°-30°. (a) Smooth surface; (b) serrated face
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    Focusing efficiencies for 450 nm and 532 nm lasers vertically incident on Fresnel lens with serrated face
    Fig. 4. Focusing efficiencies for 450 nm and 532 nm lasers vertically incident on Fresnel lens with serrated face
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    Focusing efficiencies for 450 nm and 532 nm lasers passing through Fresnel lens with incident angles of -30°-30°
    Fig. 5. Focusing efficiencies for 450 nm and 532 nm lasers passing through Fresnel lens with incident angles of -30°-30°
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    Focusing spots for 450 nm laser passing through Fresnel lens with incident angles of 0°-30°. (a) 0°; (b) 5°; (c) 10°; (d) 15°; (e) 20°; (f) 25°; (g) 30°
    Fig. 6. Focusing spots for 450 nm laser passing through Fresnel lens with incident angles of 0°-30°. (a) 0°; (b) 5°; (c) 10°; (d) 15°; (e) 20°; (f) 25°; (g) 30°
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    Focusing spots for 532 nm laser passing through Fresnel lens with incident angles of 0°-30°. (a) 0°; (b) 5°; (c) 10°; (d) 15°; (e) 20°; (f) 25°; (g) 30°
    Fig. 7. Focusing spots for 532 nm laser passing through Fresnel lens with incident angles of 0°-30°. (a) 0°; (b) 5°; (c) 10°; (d) 15°; (e) 20°; (f) 25°; (g) 30°
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    Peng Zhang, Shoufeng Tong. Focusing Performance of Fresnel Lens in Underwater Wireless Optical Transmission System[J]. Acta Optica Sinica, 2019, 39(4): 0412006
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    Paper Information
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