共查询到18条相似文献,搜索用时 46 毫秒
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多光子强光脉冲用于量子密钥分配 总被引:1,自引:0,他引:1
通常的量子密钥分配是建立在单光子计数的基础上的 .这种分配方案易受环境干扰 ,因而传输速率较低 .近来 ,有理论工作者主张 :使用连续变量 (而不是量子比特 ,qubits)实现量子密钥分配 ,以便更快和更有效地传送保密信息 .在 2 0 0 3年第 4 2 1卷第 2 38页的Nature中 ,来自法国法布里光学实验室的Grosshans等发表了他们的最新的研究结果 .他们用实验展示了一个全新的量子密钥分配协议 :高斯线型调制的相干态传输 (由激光脉冲组成 ,每个脉冲包含数百个光子 )和限制散粒噪声的零拍检波(homodynedetection) .在新的密钥传输过程中 ,不需要对激… 相似文献
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借助量子密码术和卫星可以实现全球性的保密通信网络。但使用现有的单光子探测模块搭建星地量子密钥分配(QKD)系统,接收端就面临着空间光-多模光纤耦合的技术挑战。空间光-多模光纤耦合条件对星地量子密钥分配系统的跟瞄精度提出了严格要求。理论分析和定量计算表明,跟瞄精度ε与光束发散角θdiv的比值ε/dθiv≤0.5时,星地量子密钥分配系统的光子探测概率较高,系统可以正常工作;ε/dθiv≤0.1时,系统处于量子密钥产生速率为几kb/s的更理想状况。采用短波长更有利于满足空间光-多模光纤耦合条件,同时有利于系统获得更高的密钥产生速率。 相似文献
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基于通信速率和误码率在量子保密通信研究中的重要性, 采用1.55 μm上转换单光子探测器, 分析其量子效率随抽运功率的变化关系, 得出1.55 μm上转换单光子探测器较传统的铟镓砷二极管具有较高的量子效率和较低暗计数的优势, 并根据通信距离、上转换单光子探测器的量子效率和暗计数之间建立一种平衡, 得出每种距离上探测器的优化方案; 在考虑个体攻击无量子记忆的条件下, 比较BB84协议, BBM92协议和差分相移协议的量子密钥分配(QKD)系统的安全通信速率和误码率随通信距离的变化关系, 得出了差分相移键控协议的量子密钥分配系统是一个非常实用的, 通信距离大于200 km的很有吸引力的长距离量子密钥分配系统。 相似文献
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基于量子远程通信的原理, 本文借助双模压缩真空态和相干态, 提出一种连续变量量子确定性密钥分配协议. 在利用零差探测法的情况下协议的传输效率达到了100%. 从信息论的角度分析了协议的安全性, 结果表明该协议可以安全传送预先确定的密钥. 在密钥管理中, 量子确定性密钥分配协议具有量子随机性密钥分配协议不可替代的重要地位和作用. 与离散变量量子确定性密钥分配协议相比, 该协议分发密钥的速率和效率更高, 又协议中用到的连续变量量子态易于产生和操控、适于远距离传输, 因此该协议更具有实际意义. 相似文献
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光子数分束攻击对星地量子密钥分配系统安全的影响 总被引:2,自引:1,他引:1
由于仪器设备性能的不完美和信道传输损耗的存在,光子数分束(PNS)攻击对采用弱相干脉冲(WCP)光源的量子密钥分配(QKD)系统的安全性构成重大威胁.以基于WCP光源的星地QKD系统为研究对象,推导了在PNS攻击者采用最佳窃听策略进行窃听时,保证密钥绝对安全的最大天顶角和可采用的平均光子数之间的关系.理论分析和计算结果表明,星地QKD系统的最大安全传输天顶角和可使用的平均光子数等重要系统参数的取值上限均受PNS攻击的限制,最终系统的密钥交换速率和系统容量受到限制.对星地QKD系统的传输容量来说,天顶角和平均光子数是一对矛盾的影响因素.提供了一种对实际星地QKD系统的天顶角和平均光子数参数进行估算的方法. 相似文献
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Xiang-Cui Lei Yue-Kun Heng Sen Qian Jing-Kai Xia Shu-Lin Liu Zhi Wu Bao-Jun Yan Mei-Hang Xu Zheng Wang Xiao-Nan Li Xiang-Dong Ruan Xiao-Zhuang Wang Yu-Zhen Yang Wen-Wen Wang Can Fang Feng-Jiao Luo Jing-Jing Liang Lu-Ping Yang Biao Yang 《中国物理C(英文版)》2016,40(2):026002-026002
The neutrino detector of the Jiangmen Underground Neutrino Observatory(JUNO) is designed to use20 kilotons of liquid scintillator and approximately 16000 20 inch photomultipliers(PMTs).One of the options is to use the 20 inch R12860 PMT with high quantum efficiency which has recently been developed by Hamamatsu Photonics.The performance of the newly developed PMT preproduction samples is evaluated.The results show that its quantum efficiency is 30%at 400 nm.Its Peak/Valley(P/V) ratio for the single photoelectron is 4.75 and the dark count rate is 27 kHz at the threshold of 3 mV while the gain is at 1 × 10~7.The transit time spread of a single photoelectron is 2.86 ns.Generally the performances of this new 20 inch PMT are improved over the old one of R3600. 相似文献
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Analysis of the differential-phase-shift-keying protocol in the quantum-key-distribution system 下载免费PDF全文
The analysis is based on the error rate and the secure communication
rate as functions of distance for three quantum-key-distribution
(QKD) protocols: the Bennett--Brassard 1984, the
Bennett--Brassard--Mermin 1992, and the coherent
differential-phase-shift keying (DPSK) protocols. We consider the
secure communication rate of the DPSK protocol against an arbitrary
individual attack, including the most commonly considered
intercept-resend and photon-number splitting attacks, and concluded
that the simple and efficient differential-phase-shift-keying
protocol allows for more than 200 km of secure communication
distance with high communication rates. 相似文献
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Guang Wu 《Optics Communications》2006,265(1):126-131
High performances of single-photon detection at 1.55 μm were achieved by operating InGaAs/InP avalanche photodiodes in the gated mode at the optimized temperature. As short pulses used in the gated-mode detection produce strong spikes, a transformer-based method was invented to cancel the spikes, which makes it possible to reduce the dark counts by using short-gate pulse durations, and to discriminate the avalanche signals at low thresholds. The spike-cancellation single-photon detection at the optimized temperature produced a detection efficiency of 20% with a dark-count probability of 3.4 × 10−7 per pulse. With such a single-photon detector, a stable single-photon routing was realized in 155 km optical fibers with the average photon number 〈n〉 = 0.1 per pulse, exhibiting a fringe contrast of 87%. 相似文献
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<正>The performance of single-photon detectors can be enhanced by using nano-antenna.The characteristics of the superconducting nano-wire single-photon detector with cavity plus anti-reflect coating and specially designed nanoantenna is analysed.The photon collection efficiency of the detector is enhanced without damaging the detector’s speed,thus getting rid of the dilemma of speed and efficiency.The characteristics of nano-antenna are discussed,such as the position and the effect of the active area,and the best result is given.The photon collection efficiency is increased by 92 times compared with that of existing detectors. 相似文献
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Yu-Yu Jin Sheng-Xian Qin Hao Zu Lan Zhou Wei Zhong Yu-Bo Sheng 《Frontiers of Physics》2018,13(5):130321
Heralded noiseless amplification is beneficial in overcoming transmission photon loss in a noisy quantum channel. We propose a single-photon-assisted heralded noiseless amplification protocol of the singlephoton entanglement (SPE), where the single-photon qubit has an arbitrary unknown polarization feature. We focus on both the complete and partial photon loss during the transmission process. After the amplification, the parties can recover the pure less-entangled SPE into a maximally entangled SPE and increase its fidelity. Moreover, the polarization feature of the single-photon qubit will be well preserved and not be leaked. Our protocol can be realized under our current experimental condition. Based on the features above, our protocol may be useful in the quantum secure communication schemes that encode information in the polarization degree of freedom of photons. 相似文献