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    Journals >Laser & Optoelectronics Progress >Volume 59 >Issue 11 >Page 1123001 > Article
    • Laser & Optoelectronics Progress
    • Vol. 59, Issue 11, 1123001 (2022)
    Design of Laser Communication Optical Transceiver Based on Double Wedge Prisms
    Zhenchong Xing1、2 and Wei Wang1、2、*
    Author Affiliations
  • 1The 54th Research Institute of China Electronic Technology Group Corporation, Shijiazhuang 050011, Hebei , China
  • 2Hebei Key Laboratory of Photonic Information Technology and Application, Shijiazhuang 050011, Hebei , China
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    DOI: 10.3788/LOP202259.1123001 Cite this Article Set citation alerts
    Zhenchong Xing, Wei Wang. Design of Laser Communication Optical Transceiver Based on Double Wedge Prisms[J]. Laser & Optoelectronics Progress, 2022, 59(11): 1123001 Copy Citation Text show less
    Combination modes of double wedge prisms
    Fig. 1. Combination modes of double wedge prisms
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    Imaging schematic diagram of double wedge prisms. (a) No rotation; (b) single prism rotation; (c) double prisms rotation
    Fig. 2. Imaging schematic diagram of double wedge prisms. (a) No rotation; (b) single prism rotation; (c) double prisms rotation
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    Ray tracing model of the rotating double wedge prisms
    Fig. 3. Ray tracing model of the rotating double wedge prisms
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    Linear scanning patterns under different initial phase
    Fig. 4. Linear scanning patterns under different initial phase
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    Rose line scanning patterns. (a) k=-3.0; (b) k=-3.5; (c) k=-4.1
    Fig. 5. Rose line scanning patterns. (a) k=-3.0; (b) k=-3.5; (c) k=-4.1
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    Schematic diagram of lightweight and miniaturized laser communication terminal
    Fig. 6. Schematic diagram of lightweight and miniaturized laser communication terminal
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    Schematic diagram of receiving optical path. (a) Optical system schematic diagram; (b) spots distribution schematic diagram
    Fig. 7. Schematic diagram of receiving optical path. (a) Optical system schematic diagram; (b) spots distribution schematic diagram
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    Schematic diagram of the laser emission optical path
    Fig. 8. Schematic diagram of the laser emission optical path
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    ParameterGainNote
    1.54 μm1.56 μm
    Laser emission power10 dBm10 mW semiconductor laser
    Antenna transmission gain78.06 dB78.06 dBbeam divergence angle 0.5 mrad
    Antenna efficiency-3.2 dB-3.2 dB

    optical transmittance 0.7

    wavefront aberration λ/10

    Atmospheric loss-0.11 dB-0.11 dBatmosphere transmittance 0.97
    Spatial transmission loss-198.23 dB-198.12 dBtransmission distance 1.0 km
    Alignment mismatch loss-1.39 dB-1.39 dBbest match
    Antenna receiving gain92.21 dB92.10 dBpupil diameter 20 mm
    Antenna efficiency-3.2 dB-3.2 dB

    optical transmittance 0.7

    wavefront aberration λ/10

    Received power-25.97 dBm-25.99 dBm~1.42 μW
    Detection sensitivity-35 dBmbit error rate less than or equal to 10-6
    Power margin9.03 dB9.01 dBsufficient power margin
    Table 1. Power budge of the laser communication link
    Abstract
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    Equations (5)
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    Zhenchong Xing, Wei Wang. Design of Laser Communication Optical Transceiver Based on Double Wedge Prisms[J]. Laser & Optoelectronics Progress, 2022, 59(11): 1123001
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    Paper Information
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