干旱区生态环境知识资源中心(Arid): 200 km沙漠链路高精度光纤时频传递关键技术研究

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	200 km沙漠链路高精度光纤时频传递关键技术研究
其他题名	Key technology of high-precision time frequency transfer via 200 km desert urban fiber link
	应康 1; 桂有珍 2; 孙延光 1; 程楠 2; 熊晓锋 1; 王家亮 2; 杨飞 1; 蔡海文 1
来源期刊	物理学报
ISSN	1000-3290
出版年	2019
卷号	68 期号:6
中文摘要	针对沙漠环境实地链路存在的温度变化大、室外风力、地表振动等多种复杂噪声来源,通过对系统反馈补偿带宽、反馈补偿强度、光功率等时频传递系统关键参数的优化配置,研究了不同反馈补偿参数下复杂链路噪声的有效抑制技术.全链路的频率传递稳定度810~(-14)@1 s,110~(-16)@1000 s,千秒尺度下时间信号传递的时间方差仅为1.2 ps.实现了氢钟信号在200 km量级沙漠环境实地链路的无损传输.该验证实验在基于短基线干涉测量的卫星测轨系统中发挥了重要作用.
英文摘要	The precise time and frequency signal dissemination has significant applications in scientific research such as baseline interferometry, deep space network and metrology. Aside from satellite based systems, optical fiber has become an attractive alternative medium for transferring time and frequency signals, offering much improved accuracy. For the urban fiber link in the desert environment, there are many complex noise sources, such as temperature change, outdoor wind and ground vibration. Therefore, a systematical study on the noise source and on the noise reduction method in the dessert environment have practical significance. In this paper, we demonstrate a time (1 pps) and frequency signal dissemination and time synchronization system through a 200 km urban fiber in dessert environment. The noise source of the urban fiber under dessert environment is analyzed and studied in detail; the results show that the vibration and temperature shift are the major influencing factors. The vibration of urban fiber can induce the noise in the high Fourier frequency, and the temperature shift of urban fiber can induce the noise at a low Fourier frequency. An optical compensation setup is used, including the optical delay line with temperature controlled and piezoelectric ceramics driving. The phase fluctuation of frequency signal is detected and used to control the feedback of the optical compensating setup. In order to compensate for the fiber loss in a long range, a special bi-directional erbium-doped fiber amplifier is used to regenerate optical signals to achieve the long distance transmission. Then, we study the effective link noise suppression technology under different feedback compensation parameters. The systematic feedback parameters are optimized through using the different system feedback bandwidths, feedback intensities, optical power and other key parameters. The optimized systematic feedback parameters are obtained via the careful experimental observation and discussion. With the optimized systematic feedback parameters, experimental results show that the frequency stabilities are up to 810~(-14) at 1 s and 110~(-16) at 1000 s, and time stabilities are up to 1.2 ps in an average time of 10~3 s. The phase stabilized transmission of hydrogen clock signal in the 200 km level desert environment urban fiber link is realized. The verification experiment plays an important role in measuring the satellite orbit based on a connected elements’ interferometry. The relevant study result is of significance for improving the precision of time and frequency signal dissemination in the dessert environmental urban fiber.
中文关键词	光纤光学 ; 时频传递 ; 波分复用 ; 光学补偿
英文关键词	fiber optics time and frequency transfer wavelength division multiplexing optical compensation
语种	中文
国家	中国
收录类别	CSCD
WOS类目	ENGINEERING AEROSPACE
WOS研究方向	Engineering
CSCD记录号	CSCD:6461739
资源类型	期刊论文
条目标识符	http://119.78.100.177/qdio/handle/2XILL650/239594
作者单位	1.中国科学院上海光学精密机械研究所, 中国科学院空间激光信息传输与探测技术重点实验室, 上海 201800, 中国; 2.中国科学院上海光学精密机械研究所, 中国科学院量子光学重点实验室, 上海 201800, 中国
推荐引用方式 GB/T 7714	应康,桂有珍,孙延光,等. 200 km沙漠链路高精度光纤时频传递关键技术研究[J],2019,68(6).
APA	应康.,桂有珍.,孙延光.,程楠.,熊晓锋.,...&蔡海文.(2019).200 km沙漠链路高精度光纤时频传递关键技术研究.物理学报,68(6).
MLA	应康,et al."200 km沙漠链路高精度光纤时频传递关键技术研究".物理学报 68.6(2019).