Ultra-long distance optical communication system and ultra-long distance optical communication method based on single-photon detection
A single-photon detection and optical communication system technology, which is applied in the field of ultra-long-distance optical communication systems based on single-photon detection, can solve problems such as system fragility, real-time communication discount, and difficulty in maintaining stable working status of deep space satellites.
Active Publication Date: 2011-10-19
SHANGHAI INST OF TECHNICAL PHYSICS - CHINESE ACAD OF SCI
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When the deep-space satellite reaches the detection distance of Mars orbit or even farther, the shortcomings of the original communication methods such as radio wave communication are gradually enlarged. Excessive load power consumption makes it difficult to maintain a stable working state of the deep-space satellite. Real-time communication The securit
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[0017] Taking the ultra-long-distance optical communication between the earth ground station and the Mars satellite that needs to be implemented during Mars exploration as an example, the Mars exploration satellite and the ground station at the two ends of the communication each need a system of the present invention, which are respectively the satellite load system and the ground station system. System diagram as figure 1 As shown, the communication distance is 60 million kilometers.
[0018] For satellite payload systems:
[0019] The wavelength of transmitting communication light is 1550nm, the wavelength of receiving communication light is 1064nm, the wavelength of transmitting beacon light is 671nm, and the wavelength of receiving beacon light is 532nm; The polarized communication light laser 3 emits communication light with a vertical linear polarization of 1550nm; the beacon light laser 9 emits a beacon light of 671nm; Less than 50%; the tracking camera has a high res...
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The invention discloses an ultra-long distance optical communication system and an ultra-long distance optical communication method based on single-photon detection, which is particularly applicable to the occasions with ultra-long distance communication. In the invention, aiming at the contradictions between the international requirements on deep-space exploration and deep-space communication and the limits of traditional microwave communication system on power consumption, bandwidth and the like, the spatial optical communication mode with the following advantages is adopted: large channel capacity, low power consumption, small volume, light weight, high confidentiality, strong anti-interference and the like; based on the rising single-photon detection technology, the invention provides the ultra-long distance optical communication system and the ultra-long distance optical communication method based on single-photon detection; the coding modulation mode in which the differential pulse position modulation and the polarization modulation are combined with each other is adopted; furthermore, the spatial high-precision tracking, capturing and aiming technology is adopted; by the optical machine structure with reasonable design and the communication method of the system, the chain and system consumption of the spatial optical communication can be reduced; the communication bandwidth can be improved; and the power consumption of communication system can be greatly reduced, thus meeting the requirement on the ultra-long distance optical communication, therefore, the system and the method are especially applicable to the occasions with ultra-long distance optical communication.
Description
[0001] technical field [0002] The invention relates to an optical communication technology for an ultra-long-distance optical communication system, in particular to an ultra-long-distance optical communication system and method based on single photon detection. Background technique [0003] At the current stage of the 21st century, the overall level of the world's aerospace industry is making great strides. Not only has the exploration and occupation of the moon entered a substantive stage, but the footprint of exploration extends farther into deep space. Mars is bound to become the world's aerospace industry. The next target of great power competition. In order to better complete scientific missions such as detection, deep space satellites need to transmit the data obtained by detection back to the ground workstation in real time, and receive new commands from the ground station to adjust the current working status. When the deep-space satellite reaches the detection dis...
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Inventor 王建宇杨世骥舒嵘贾建军何志平吴今才张亮
Owner SHANGHAI INST OF TECHNICAL PHYSICS - CHINESE ACAD OF SCI
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