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High-power fiber laser phased array high-speed information transmitting device capable of being dynamically connected

A high-speed information, fiber laser technology, applied in the field of ultra-long-distance space communication, can solve the problems of inability to withstand large average power, low single-core power, and limit deep space transmission, and achieve high power output, low response speed, and realization of The effect of large angle deflection

Active Publication Date: 2014-07-23
CHANGCHUN UNIV OF SCI & TECH
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  • Abstract
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Problems solved by technology

[0003] At present, the laser communication system adopts a separate high-precision tracking and aiming device, and the main oscillation power amplification and transmitting system after the 1.55μm semiconductor laser seed source is passed through the erbium-doped fiber amplifier, the maximum power is only about 5W due to the limitation of the saturated output of the amplifier, thus limiting Ultra-long-distance deep space transmission
Fiber lasers have the advantages of high efficiency, good beam quality, and high output power, while fiber lasers are generated in very thin cores, which cannot withstand large average power and low single-core power

Method used

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  • High-power fiber laser phased array high-speed information transmitting device capable of being dynamically connected
  • High-power fiber laser phased array high-speed information transmitting device capable of being dynamically connected
  • High-power fiber laser phased array high-speed information transmitting device capable of being dynamically connected

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Embodiment Construction

[0016] The invention will be further described below in conjunction with the accompanying drawings.

[0017] like figure 1 As shown, the dynamically connected high-power fiber laser phased array high-speed information transmission device includes a seed source 1, a coupler 2, an intensity modulator 3, a coupler 4, a first phase modulator 5, and a second phase modulator 6 , the third phase modulator 7, the fourth phase modulator 8, the first fiber amplifier 9, the second fiber amplifier 10, the third fiber amplifier 11, the fourth fiber amplifier 12, the beam combiner 13, the phase controller 14, the splitter Device 15 and RF signal generator 16. The output end of the seed source 1 is connected to the input end 201 of the coupler 2, the first output end 202 of the coupler 2 is connected to the port 301 of the intensity modulator 3, the second output end 203 of the coupler 2 is connected to the second output end 203 of the phase controller 14 One input port 1401 is connected, ...

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Abstract

A high-power fiber laser phased array high-speed information transmitting device capable of being dynamically connected is applied to the field of super-remote-distance space communication. To achieve high-speed laser high-power emission and super-remote-distance transmission, a seed source undergoes beam split through a coupler, a beam of light is input into phase controllers as reference light, and the other beam of light undergoes high-speed information modulation; a radio-frequency signal generator and the other beam of light enter an intensity modulator to obtain a high-speed modulation signal, the high-speed modulation signal enters the four phase controllers respectively to carry out phase control after undergoing uniform light split through the coupler, four beams of high-speed modulated light are obtained, and the four beams of high-speed modulated light enter four optical fiber amplifiers respectively to be amplified at a high power and then undergo coherent beam combination through a beam combiner; a beam splitter outputs 1% of a combined laser into the phase controllers, the combined laser undergoes phase comparison with the reference light, the comparison result is processed by the phase controllers to send out phase control signals, and four phase modulators control the phases of the beams of light respectively after receiving the phase control signals to guarantee coherent beam combination and emission angle scanning.

Description

technical field [0001] The invention relates to a dynamically connected high-power optical fiber laser phased array high-speed information transmitting device, which is applied to ultra-long-distance space communication fields such as deep space and interstellar space. Background technique [0002] A large amount of scientific data generated by space exploration needs to rely on large-capacity, ultra-long-distance space information transmission technology. The biggest feature of deep space communication is long-distance non-relay transmission, the launch power of spacecraft is limited, and the radio frequency propagation loss is proportional to the square of the distance, and the radio frequency signal also limits the transmission bandwidth of communication. Therefore, how to make up for the huge loss and realize long-distance broadband communication is the biggest problem facing deep space communication. In the field of deep space communication, laser communication can ove...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04B10/50
Inventor 王天枢孙宏伟韩建张鹏贾青松张立中姜会林
Owner CHANGCHUN UNIV OF SCI & TECH
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