Nan Cheng scite author profile

Nan Cheng

2Publications

19Citation Statements Received

18Citation Statements Given

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Affiliations

Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, University of Chinese Academy of Sciences

Publications

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Joint Time and Frequency Dissemination Network Over Delay-Stabilized Fiber Optic Links

et al. 2015

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A precise fiber-based time and frequency dissemination scheme for multiple users with a tree-like branching topology is proposed. Through this scheme, ultra-stable signals can be easily accessed online anywhere along the fiber without affecting other sites. The scheme is tested through an experiment, in which a modulated frequency signal and a synchronized time signal are transferred to multiple remote sites over a delay-stabilized fiber optic links that are over 50 km long. Results show that the relative stabilities are 5×10 −14 @1 s and 2×10 −17 @10 4 s. Meanwhile, compared with each site, time synchronization precision is less than 80 ps. These results can pave the way to practical applications in joint time and frequency dissemination network systems.

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Fiber-optic joint time and frequency transfer with the same wavelength

Wang

Yue

et al. 2019

Opt. Lett.

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Optical fiber links have demonstrated their ability to transfer the ultra-stable clock signals. In this paper we propose and demonstrate a new scheme to transfer both time and radio frequency with the same wavelength based on coherent demodulation technique. Time signal is encoded as a binary phase-shift keying (BPSK) to the optical carrier using electro optic modulator (EOM) by phase modulation and makes sure the frequency signal free from interference with single pulse. The phase changes caused by the fluctuations of the transfer links are actively cancelled at local site by optical delay lines. Radio frequency with 1GHz and time signal with one pulse per second (1PPS) transmitted over a 110km fiber spools are obtained. The experimental results demonstrate that frequency instabilities of 1.7E-14 at 1s and 5.9E-17 at 10 4 s. Moreover, time interval transfer of 1PPS signal reaches sub-ps stability after 1000s. This scheme offers advantages with respect to reduce the channel in fiber network, and can keep time and frequency signal independent of each other.

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Nan Cheng

Joint Time and Frequency Dissemination Network Over Delay-Stabilized Fiber Optic Links

Fiber-optic joint time and frequency transfer with the same wavelength

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