光电工程
光電工程
광전공정
Opto-Electronic Engineering
2015年
9期
82-88
,共7页
胡源%高天元%江伦%程德文%董科研
鬍源%高天元%江倫%程德文%董科研
호원%고천원%강륜%정덕문%동과연
空间激光通信%地面测试%发散角%离焦%固定倍率
空間激光通信%地麵測試%髮散角%離焦%固定倍率
공간격광통신%지면측시%발산각%리초%고정배솔
space laser communication%ground test%divergence angle%defocus%magnification
为了解决远距离能量传输问题,当空间激光通信终端搭载卫星平台时,激光光束的发散角通常都非常小,典型的为10μrad量级.但是在地面近距离测试中,必须适当的放大发散角,以保证在一定跟踪精度下,通信终端始终能在信标和通信光束指向范围内.本文以对波前光强分布最为敏感的通信光为例,对不同通信距离和不同位置的光强分布进行理论建模和模拟仿真,分析其对通信的影响,为空间激光通信地面测试提供科学的试验方法和试验思路.同时,对比离焦和固定倍率两种发散角放大方法的优劣,以某空间激光通信光端机地面测试为例,给出优化实现方案及结果,为空间激光通信地面测试进一步积累经验.
為瞭解決遠距離能量傳輸問題,噹空間激光通信終耑搭載衛星平檯時,激光光束的髮散角通常都非常小,典型的為10μrad量級.但是在地麵近距離測試中,必鬚適噹的放大髮散角,以保證在一定跟蹤精度下,通信終耑始終能在信標和通信光束指嚮範圍內.本文以對波前光彊分佈最為敏感的通信光為例,對不同通信距離和不同位置的光彊分佈進行理論建模和模擬倣真,分析其對通信的影響,為空間激光通信地麵測試提供科學的試驗方法和試驗思路.同時,對比離焦和固定倍率兩種髮散角放大方法的優劣,以某空間激光通信光耑機地麵測試為例,給齣優化實現方案及結果,為空間激光通信地麵測試進一步積纍經驗.
위료해결원거리능량전수문제,당공간격광통신종단탑재위성평태시,격광광속적발산각통상도비상소,전형적위10μrad량급.단시재지면근거리측시중,필수괄당적방대발산각,이보증재일정근종정도하,통신종단시종능재신표화통신광속지향범위내.본문이대파전광강분포최위민감적통신광위례,대불동통신거리화불동위치적광강분포진행이론건모화모의방진,분석기대통신적영향,위공간격광통신지면측시제공과학적시험방법화시험사로.동시,대비리초화고정배솔량충발산각방대방법적우렬,이모공간격광통신광단궤지면측시위례,급출우화실현방안급결과,위공간격광통신지면측시진일보적루경험.
In order to solve the problem of long distance energy transmission, divergence angle of laser transmitted by space-borne laser communication terminal must be usually very small, typically on the order of tens of microradians. But the ground testing must properly amplify the divergence angle, to ensure that the communication terminal can always in the beacon beam and communication beam range with a certain tracking accuracy. This paper uses the communication light which sensitive the intensity distribution as an example, building the theory molding and simulating for different distance and position, analyzing the influence, which provides scientific basis for space laser communication ground demonstration. Meanwhile, defocus and magnification of two kinds of divergence angle amplification method was compared. In the ground testing of a space laser communication, we give the optimal selection scheme. The result provides scientific basis and accumulated experience for the space laser communication ground test.
