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Your search keyword '"Gao, Yaoxian"' showing total 12 results
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12 results on '"Gao, Yaoxian"'

1. Coexistence of quantum key distribution and optical communication with amplifiers over multicore fiber

Author

Kong Weiwen, Sun Yongmei, Gao Yaoxian, and Ji Yuefeng

Subjects
multicore fiber, noise analysis, quantum key distribution, Physics, QC1-999
Abstract

In this paper, the influence of classical signals on quantum key distribution (QKD) is studied over multi-core fiber (MCF) when optical amplifiers exist. Firstly, the long-distance simultaneous transmission architectures of QKD and classical signals are proposed based on advanced asymmetric sending or not sending QKD (SNS-QKD) and classical Bennett–Brassard 1984-QKD (BB84-QKD), and the segment length between optical amplifiers can be adjusted according to requirement. Then, theoretical models of spontaneous Raman scattering noise and four-wave mixing noise are established based on the proposed architectures. Next, the calculation models of the secure key rate under the influence of noises from classical signals are derived. Finally, the experimental results show that the theoretical models match well with the experimental photons, and the maximum difference between experimental and simulated noise photons is less than 2.6 dB. Simulation results show that the performance of asymmetric SNS-QKD is better than that of BB84-QKD architecture when classical signals and quantum signals are transmitted in different cores of MCF.

Published
2023
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2. Enhanced Coexistence of Quantum Key Distribution and Classical Communication over Hollow-Core and Multi-Core Fibers.

Author

Kong, Weiwen, Sun, Yongmei, Dou, Tianqi, Xie, Yuheng, Li, Zhenhua, Gao, Yaoxian, Zhao, Qi, Chen, Na, Gao, Wenpeng, Hao, Yuanchen, Han, Peizhe, Liu, Yang, and Tang, Jianjun

Subjects
FOUR-wave mixing, RAMAN scattering, FIBERS, QUANTUM communication, OPTICAL communications, ULTRAFILTRATION
Abstract

In this paper, we investigate the impact of classical optical communications in quantum key distribution (QKD) over hollow-core fiber (HCF), multi-core fiber (MCF) and single-core fiber (SCF) and propose wavelength allocation schemes to enhance QKD performance. Firstly, we theoretically analyze noise interference in QKD over HCF, MCF and SCF, such as spontaneous Raman scattering (SpRS) and four-wave mixing (FWM). To mitigate these noise types and optimize QKD performance, we propose a joint noise suppression wavelength allocation (JSWA) scheme. FWM noise suppression wavelength allocation and Raman noise suppression wavelength allocation are also proposed for comparison. The JSWA scheme indicates a significant enhancement in extending the simultaneous transmission distance of classical signals and QKD, reaching approximately 100 km in HCF and 165 km in MCF under a classical power per channel of 10 dBm. Therefore, MCF offers a longer secure transmission distance compared with HCF when classical signals and QKD coexist in the C-band. However, when classical signals are in the C-band and QKD operates in the O-band, the performance of QKD in HCF surpasses that in MCF. This research establishes technical foundations for the design and deployment of QKD optical networks. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Study on properties of dielectric liquids at low temperatures

Author

Gao Yaoxian, Li Liqin, Wang Yougong, He Xijing, Chang Xianmin, and Wang Guokang

Subjects
Capacitor, Crystallinity, Film capacitor, Materials science, Differential scanning calorimetry, law, Liquid dielectric, Calorimetry, Dielectric, Composite material, law.invention, Fast measurement
Abstract

The crystallinity of several dielectric liquids at low temperatures used as capacitor impregnants was investigated by means of DSC (differential scanning calorimetry), and some of the results obtained are compared with those obtained by the traditional glass-tube test. Compared to the glass-tube method, DSC has the advantage of fast measurement speed. Further research results on the partial discharges of model capacitors (all-time capacitors and paper/film capacitors) impregnated with the dielectric liquids tested show that the DSC method is practicable for measuring the properties of dielectric liquids at low temperature. >

Published
2002

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