Portable Atmospheric Transfer of Microwave Signal Using Diode Laser with Timing Fluctuation Suppression

ZTE Communications Pub Date : 2020-04-28 DOI:10.19729/J.CNKI.1673-5188.2018.04.008
Chen Shijun, Bai Qingsong, Chen Dawei, Sun Fuyu, H. Dong
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引用次数: 0

Abstract

We demonstrate an atmospheric transfer of microwave signal over a 120 m outdoor free⁃space link using a compact diode laser with a timing fluctuation suppression technique. Timing fluctuation and Allan Deviation are both measured to charac⁃ terize the instability of transferred frequency incurred during the transfer process. By transferring a 100 MHz microwave signal within 4500 s, the total root⁃mean⁃square (RMS) timing fluctuation was measured to be about 6 ps, with a fractional frequency instability on the order of 1 × 10−12 at 1 s, and order of 7 × 10−15 at 1000 s. This portable atmospheric fre⁃ quency transfer scheme with timing fluctuation suppression can be used to distribute an atomic clock ⁃ based frequency over a free⁃space link.
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时序波动抑制二极管激光器用于微波信号的便携式大气传输
我们使用具有定时波动抑制技术的紧凑型二极管激光器演示了微波信号在120米户外自由空间链路上的大气传输。测量了定时波动和Allan偏差,以表征传输过程中传输频率的不稳定性。通过在4500s内传输100MHz微波信号,测量到总均方根(RMS)定时波动约为6ps,在1s时分数频率不稳定性约为1×10−12,在1000s时为7×10−15。这种具有定时波动抑制的便携式大气频率传输方案可用于在自由空间链路上分配基于原子钟的频率。
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ZTE Communications
ZTE Communications
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