共查询到19条相似文献,搜索用时 140 毫秒
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借助于双模压缩真空态在EPR纠缠态表象中的表示,研究了用双模压缩真空态作为量子通道 实现任意的单模和双模量子态的远程传输.
关键词:
量子隐形传态
EPR纠缠态
压缩真空态 相似文献
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量子相干性作为量子力学一个最显著的特征,被认为是量子信息过程中很重要的一种量子资源.单模压缩态和双模压缩态(Einstein-Podolsky-Rosen纠缠态)均具有量子相干性,在制备和传输过程中的量子相干性对于实际应用具有重要意义.利用平衡零拍探测重构量子态的协方差矩阵,本文定量分析了量子态制备过程中的不完美以及信道传输损耗对单模和双模压缩态量子相干性的影响.实验证明量子态的压缩和纠缠特性及量子相干性对损耗均是鲁棒的.特别地,压缩和纠缠特性会随着量子态制备过程中热光子数的增大而减小,直至消失,而当压缩和纠缠均已消失时,量子相干性依然存在.实验结果为压缩态、纠缠态光场的量子相干性作为量子资源在量子信息过程中的应用提供了参考. 相似文献
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采用张量表示和广义三维贝尔基测量的方法,提出了实现三能级单量子态控制双向量子隐形传态的协议.协议中,控制者Carol的量子态为任意广义三维贝尔基.选择六粒子纠缠态作为量子通道,并给出了判断任意六粒子纠缠态能否作为量子通道的必要条件.基于该条件,借助SO(3)群元素的幺正性,选择其任意两个元素作为幺正矩阵,给出了构建量子通道的一般方法.列举了两个具体构建量子通道的例子,其中Alice、Bob、Carol共同作用,进行相应的广义三维贝尔基测量和对应的幺正变换,最终实现了Alice和Bob之间量子态的交换,从而验证了所提协议的可行性. 相似文献
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研究了未知的多维量子态的概率量子隐形传送问题.文中提出利用一个部分的三维两粒子纠缠态作为量子通道,概率传送未知的三维单粒子态的方案;然后通过利用两个部分的三维两粒子纠缠态作为量子通道,又提出了一种概率隐形传送未知的三维两粒子纠缠态的方案.并且对它们进行了推广:通过利用N个部分的d维两粒子纠缠态作为量子通道,可以把这种方案直接推广到未知的d维N粒子纠缠态的概率量子隐形传送.同样地,我们详细地列出了每个接收者所用的各种幺正变换.这样,我们就把未知的两维量子态的概率量子隐形传送问题研究推广到三维或多维量子态的概率量子隐形传送.与先前的研究方案相比,本文所提方案具有下列优点:处理方法不同,具体地说是在隐形传送的过程中所利用的幺正变换形式不同.在我们的方案中,接收者将引进一个具有初态为|0》A的d-维辅助粒子A,幺正变换U2采用d2×d2矩阵形式(对三维量子态来说d=3);而先前方案的接收者引进的是一个具有初态为|0》A的两维辅助粒子A,幺正变换U2采用2d×2d矩阵形式,即实际上就是过去方案的形式.也就是说,他们对其它粒子是进行多维处理,而对接收者引进的辅助粒子A只进行两维处理. 相似文献
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提出了一个将四比特|χ〉态作为量子通道实现任意单量子比特和两量子比特的量子态的隐形传送方案.该方案依赖于两个通信站点之间的纠缠.在这个方案里,我们给出了Alice的测量结果以及Bob进行的相应的幺正操作,计算结果表明,该隐形传送方案是完美的,也就是说它的成功概率可达到1.此外,该方案中用到的测量以及纠缠通道的制备在目前的技术下是完全可行的.因此,我们的方案有望在实验上实现. 相似文献
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《物理学报》2021,(19)
把一个任意量子态在既有噪声又有窃听的信道下安全可靠地传输,是一个广泛而重要的问题.现在已有的方法是先传输大量的Einstein-Podolsky-Rosen (EPR)纠缠对,然后进行纠缠纯化,获得一对近似完美的纠缠对,再进行隐形传态或者远程态制备来传输量子态.本文给出一种直接安全传输量子态的方法,通过使用量子直接通信,安全地传输大量同样的任意量子态,然后利用单量子态的纯化方法,得到一个近于完美的量子态.这是一种不需要量子纠缠的量子态安全传输方法,避免使用纠缠资源.这种方案是量子隐形传态和远程态制备之外的又一途径.此外,这一方案将原来只是用来传输经典信息的量子安全直接通信扩展到传输任意量子态的新领域,扩大了量子直接通信的用途.这一方案将在未来量子互联网中有重要的应用. 相似文献
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通过四个纠缠态粒子来实现未知的三个纠缠态粒子的量子几率隐形传输 总被引:8,自引:2,他引:6
提出一种分别利用四个三态粒子的最大纠缠态和非最大纠缠态作为量子通道来传输一未知的三个三态粒子纠缠态的方案.首先考察量子通道是最大纠缠态的情况,然后进一步考察量子通道是非最大纠缠态的情况,同时发现在后者情况时,通过引进一个辅助粒子,并构造一幺正变换矩阵,即可以一定的几率完成该三态粒子纠缠态的隐形传输. 相似文献
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Based on tensor representation and Bell basis measurement in bidirectional quantum teleportation, a criterion that can be used to judge whether a four-qubit quantum state can be regarded as quantum channel or not in bidirectional teleportation is suggested and a theoretical scheme of bidirectional teleportation via four-qubit state as the quantum channel is proposed. In accordance with this criterion we give a general method of selecting quantum channel in bidirectional teleportation, which is determined by the channel parameter matrix R in the Bell basis measurement. This general method provide a theoretical basis for quantum channel selection in bidirectional quantum teleportation experiments. 相似文献
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Xiu-Lao Tian Xiao-Qiang Xi Guo-Fang Shi Ming-Liang Hu Guo-Guang Yao 《Optics Communications》2009,282(24):4815-4818
We propose the tensor representation of teleportation and controlled teleportation. By using this representation, it is easy to describe the process of teleporting an unknown N-qubit state via a genuine 2N-qubit channel, and to find the necessary and sufficient condition of realizing a successful teleportation (which is determined by the measurement matrix Tα and the quantum channel parameter matrix X). For controlled teleportation, if composing tensor representation with graph, one can easily design any kind of controlled teleportation. As examples, we give a scheme of symmetrically controlled teleportation of two-qubit states and a scheme of representative network controlled of three-qubit states. This method can also be generalized to the controlled teleportation of N-qubit states. 相似文献
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Xiu-Lao Tian Ming-Liang Hu Xiao-Qiang Xi 《International Journal of Theoretical Physics》2009,48(9):2610-2617
By resorting to the tensor analysis, we derived an explicit CPM (channel parameter matrix) criterion based on the Bell state
measurements. This criterion can be used to judge whether a four-qubit state can be employed as quantum channel or not for
teleporting a general two-qubit state. According to this criterion, we presented a variety of quantum channels for faithful
and deterministic teleportation of a general two-qubit state, which can provide more flexible choices for the experimenters. 相似文献
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提出一种量子投票协议, 协议基于非对称量子通道受控量子局域幺正操作隐形传输(quantum operation teleportation, QOT). 由公正机构CA提供的零知识证明的量子身份认证, 保证选民身份认证的匿名性. 计票机构Bob制造高维Greenberger-Horne-Zeilinger 纠缠态建立一个高维量子通信信道. 选民对低维的量子选票进行局域幺正操作的量子投票, 是通过非对称基的测量和监票机构Charlie的辅助测量隐形传输的. Bob在Charlie帮助下可以通过幺正操作结果得到投票结果. 与其他一般的QOT量子投票协议相比, 该协议利用量子信息与传输的量子信道不同维, 使单粒子信息不能被窃取、防止伪造.选举过程由于有Charlie的监督, 使得投票公正和不可抵赖.由于量子局域幺正操作隐形传输的成功概率是1, 使量子投票的可靠性得以保证.
关键词:
量子投票
高维GHZ纠缠态
非对称基测量
量子操作隐形传输 相似文献
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We explicitly present precise and simple protocols for standard quantum teleportation and controlled quantum teleportation of an arbitrary N-qubit information state and analyse the case of perfect teleportation using general quantum channels and measurement bases. We find condition on resource quantum channel and Bell states for achieving perfect quantum teleportation. We also find the unitary transformation required to be done by Bob for perfect quantum teleportation and discuss the connection with others related works. We also discuss how perfect controlled quantum teleportation demands a correct choice of the measurement basis of additional party. 相似文献
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Transfer of entanglement and information is studied for quantum teleportation of an unknown entangled state through noisy quantum channels. We find that the quantum entanglement of the unknown state can be lost during the teleportation even when the channel is quantum correlated. We introduce a fundamental parameter of correlation information which dissipates linearly during the teleportation through the noisy channel. Analyzing the transfer of correlation information, we show that the purity of the initial state is important in determining the entanglement of the replica state. 相似文献
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Noisy teleportation of qubit states via the Greenberger-Horne-Zeilinger state or the W state 下载免费PDF全文
The effects of distributing entanglement through the amplitude
damping channel or the phase damping channel on the teleportation of
a single-qubit state via the Greenberger--Horne--Zeilinger state and the W
state are discussed. It is found that the average fidelity of
teleportation depends on the type and rate of the damping in the
channel. For the one-qubit affected case, the
Greenberger--Horne--Zeilinger state is as robust as the W state,
i.e., the same quantum information is preserved through
teleportation. For the two-qubit affected case, the W state is more robust
when the entanglement is distributed via the amplitude damping
channel; if the entanglement is distributed via the phase damping
channel, the W state is more robust when the noisy parameter is
small while the Greenberger--Horne--Zeilinger state becomes more
robust when it is large. For the three-qubit affected case, the
Greenberger--Horne--Zeilinger state is more robust than the W
state. 相似文献
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As the current revolution in communication is underway, quantum teleportation can increase the level of security in quantum communication applications. In this paper, we present a quantum teleportation procedure that capable to teleport either accelerated or non-accelerated information through different quantum channels. These quantum channels are based on accelerated multi-qubit states, where each qubit of each of these channels represents a partner. Namely, these states are the W state, Greenberger-Horne-Zeilinger (GHZ) state, and the GHZ-like state. Here, we show that the fidelity of teleporting accelerated information is higher than the fidelity of teleporting non-accelerated information, both through a quantum channel that is based on accelerated state. Also, the comparison among the performance of these three channels shows that the degree of fidelity depends on type of the used channel, type of the measurement, and value of the acceleration. The result of comparison concludes that teleporting information through channel that is based on the GHZ state is more robust than teleporting information through channels that are based on the other two states. For future work, the proposed procedure can be generalized later to achieve communication through a wider quantum network. 相似文献
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Pei-Ying Xiong Xu-Tao Yu Zai-Chen Zhang Hai-Tao Zhan Jing-Yu Hua 《Frontiers of Physics》2017,12(4):120302
Quantum multi-hop teleportation is important in the field of quantum communication. In this study, we propose a quantum multi-hop communication model and a quantum routing protocol with multihop teleportation for wireless mesh backbone networks. Based on an analysis of quantum multi-hop protocols, a partially entangled Greenberger–Horne–Zeilinger (GHZ) state is selected as the quantum channel for the proposed protocol. Both quantum and classical wireless channels exist between two neighboring nodes along the route. With the proposed routing protocol, quantum information can be transmitted hop by hop from the source node to the destination node. Based on multi-hop teleportation based on the partially entangled GHZ state, a quantum route established with the minimum number of hops. The difference between our routing protocol and the classical one is that in the former, the processes used to find a quantum route and establish quantum channel entanglement occur simultaneously. The Bell state measurement results of each hop are piggybacked to quantum route finding information. This method reduces the total number of packets and the magnitude of air interface delay. The deduction of the establishment of a quantum channel between source and destination is also presented here. The final success probability of quantum multi-hop teleportation in wireless mesh backbone networks was simulated and analyzed. Our research shows that quantum multi-hop teleportation in wireless mesh backbone networks through a partially entangled GHZ state is feasible. 相似文献