Chinese Optics Letters, 2020, 18 (7): 070601, Published Online: May. 25, 2020
DOE effect on BER performance in MSK space uplink chaotic optical communication 
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Figures & Tables
Fig. 1. (a) Schematic diagram of a space uplink chaotic communication system. (b) The optical subsystem before and after introducing the DOEs.
Fig. 2. (a) Input spot. (b) The spot at the exiting pupil in a system without the DOEs. (c) The spot at the exiting pupil in a system with the DOEs. (d) The intensity of the beam at Rx.
Fig. 3. Weak atmospheric turbulence. (a) The BER relationship versus transmission power at different chaotic mismatch levels. (b) The total noise relationship versus transmission power at different chaotic mismatch levels. (c) The PDF distribution at
Fig. 4. Strong atmospheric turbulence. (a) The BER relationship versus transmission power at different chaotic mismatch levels. (b) The total noise relationship versus transmission power at different chaotic mismatch levels in a system without the DOEs. (c) The PDF distribution at
Fig. 5. BER relationship versus the receiving diameter at different atmospheric turbulence conditions.
Fig. 6. BER relationship versus the transmitting aperture at different atmospheric turbulence conditions.
Fig. 7. BER relationship versus the zenith angle at different atmospheric turbulence conditions.
Mi Li, Yuan Chen, Yuejiang Song, Cheng Zeng, Xuping Zhang. DOE effect on BER performance in MSK space uplink chaotic optical communication[J]. Chinese Optics Letters, 2020, 18(7): 070601.
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