摘要
针对空-水量子密钥分发(Quantum Key Distribution,QKD),综合考虑海风影响、泡沫覆盖的不规则海面、空-水信道复杂多变性和量子偏振态多重散射过程,建立了非均匀空-水信道复合模型。据此完善了空-水QKD系统量子误码率理论模型,并采用偏振矢量蒙特卡罗算法模拟,详细分析了不同海洋环境下非均匀空-水信道光量子传输性能,及空-水QKD整体传输性能。结果表明:清澈海水条件下的非均匀空-水信道可实现水下百米量级的密钥分发,但风速和传输距离的增大都会导致光子退偏比增大,保真度减小,偏振误码率增加;同时风速和泡沫层厚度的增大也会造成空-水QKD系统量子误码率上升,密钥生成率和传输距离下降,且随信号波长的增加这两者也会增加,在波长为532 nm,信道由最佳(无风无泡沫)变至最差(暴风且泡沫层为6 cm)时,水下传输距离由120.8 m缩减至85 m,基本能保障水下航行器百米级的安全潜深,而采用拖拽浮标等措施又可进一步增加空-水QKD的安全距离。由此验证了泡沫覆盖不规则海面下非均匀空-水信道诱骗态QKD的可行性,对未来空-水一体量子通信链路的实现具有参考价值。
For air-water Quantum Key Distribution(QKD),considering the effects of sea breeze,irregular sea surfaces with foam,the complicacy and variety of air-water channels and multiple scattering processes of the polarized quantum state,a heterogeneous air-water channel composite model is established.Based on this,the theoretical model of the error rate of air-water QKD systems is improved.Then,through a polarization vector Monte Carlo simulation,the transmission characteristics of photons in heterogeneous air-water channels and the overall transmission performance of air-water QKDs under different marine environments are analyzed in detail.The results show that heterogeneous air-water channels under clear seawater conditions can achieve a key distribution of 100 meters underwater,but the increase of wind speed and transmission distance will lead to an increase in the photon depolarization ratio and a decrease in fidelity,thereby increasing the polarization error rate.Meanwhile,the rise of wind speed and foam layer thickness adds the quantum error rate of air-water QKD systems and decreases the key generation rate and transmission distance.Both of these factors increase with an increase in signal wavelength.When the wavelength is 532 nm and the channel changes from best(no wind and foam)to worst(storm and foam layer thickness of 6 cm)conditions,the underwater transmission distance is shortened from 120.8 m to 85 m.It can guarantee a 100 m safety depth in underwater vehicles and alternate contingencies such as dragging the buoy can further increase the safety distance of air-water QKD.Therefore,this paper verifies the feasibility of a decoy QKD in a heterogeneous air-water channel with a foam-irregular sea surface and acts as a significant reference for future technologies in air-water integrated quantum communication links.
作者
王潋
周媛媛
周学军
陈霄
WANG Lian;ZHOU Yuan-yuan;ZHOU Xue-jun;CHEN Xiao(Department of Electronic Engineering,PLA Naval University of Engineering,Wuhan 430000,China;Institute of War Studies,PLA Academy of Military Sciences,Beijing 100091,China)
出处
《中国光学》
EI
CAS
CSCD
北大核心
2019年第6期1362-1375,共14页
Chinese Optics
基金
国家自然科学基金资助项目(No.61302099)~~
关键词
量子密钥分发
非均勾空-水信道
泡沫覆盖不规则海面
散射
蒙特卡罗
误码率
quantum key distribution
heterogeneous air-water channel
foam-covered irregular sea surface
scattering
Monte carlo
error rate
