A scheme is presented to realize the teleportation between any two nodes in a quantum network.
提出了在量子网络中任意两个网点间进行量子态的隐形传送的方案。
This technique can improve the parallelism in quantum network and use for the compiler of quantum program.
该技术可以提高量子网络的并行性,可以用于量子计算程序的编译优化。
The work of this thesis is based on complex network theory and methods to study a type of strongly correlated quantum network.
本论文工作正是基于复杂网络的理论和方法来研究量子强关联网络。
If the light traps can be entangled with each other, the system could someday lead to a quantum network in a randomly organized crystal.
如果这些光阱可以相互纠缠,这个系统某天可能在随机组成的晶体中形成量子网络。
Based on it, we can use one of the down converted photons as a trigger to control the other photons in sequence for the application of quantum network.
以此为基础,可以利用单光子作为外触发实现对与其纠缠的其它光子的序列控制,为量子通讯网络建立可靠的量子光源。
His team examined a bacteriochlorophyllcomplex found in green sulphur bacteria and discovered that the pigment molecules were similarly wired together in a quantum mechanical network.
他们小组研究了绿硫细菌的叶绿素复合体,发现了其中的色素分子同样也会通过量子力学网络“连线”在一起。
The technique developed in Bristol uses two identical particles of light (photons) moving along a network of circuits in a silicon chip to perform an experiment known as a quantum walk.
利用这项在布里斯托尔研制出来的技术,研究者们让两个完全相同的光粒子(光子)通过一个光子芯片——刻录在硅片上的光学网络,从而实现了一个被称为量子游走(QuantumWalk)的物理过程。
This scheme is secure absolutely, it can be applied in a quantum communication network, as well as quantum identification, and it is easy to realize by the present-day technologies.
该方案具有绝对的安全性,可以应用在量子通信网络中,同时还具有量子身份认证的功能,并且在现有技术条件上完全能够实现。
The quantum communication network marries a variety of GHZ states to well establish the secure key distribution system employed in conjunction with the nodes and control centers.
这个量子密钥传输协议在通信节点和控制中心之间通过多个GHZ对构建安全的密码分配系统。
The scheme can be applied in the distributed quantum communication network. It is proved unconditional secure.
该方案可以应用在分布式量子通信网络中,并证明是无条件安全的。
According to the actual requirement of quantum cryptography communication, an embedded communication network is constructed to realize dynamic data transmission.
根据量子密码通信的实际需要,构建了一套嵌入式通信网络,实现动态数据传输。
It builds the photon link between sender and receiver of quantum communication network, and provides quantum channel for transferring quantum information between them.
它在量子通信网络的发信者与收信者之间建立光子链路,为通信双方提供量子信道,用于传输量子信息。
In order to study system of quantum communication, a scheme of quantum switch based on optical switch is presented, which is the node of quantum communication network.
为了研究量子通信系统,提出了一种基于光开关的量子交换器,它是量子通信网络的节点。
With bi-partitioning strategy, by maximizing the module density, an algorithm is proposed based on discrete quantum particle swarm optimization for complex network community detection.
采用二分策略,通过最大化模块密度,提出了基于离散量子粒子群优化进行复杂网络社区检测的算法。
The aim of this project is to investigate quantum direct communication network models based on a channel with noise and loss.
本课题目的是在理论上研究基于有噪声和损耗信道的量子网络通信。
In chapter 5, QKD network model is introduced as well as the present three major quantum communication networks in the international.
第五章介绍量子密钥分发网络的层次模型及国际上现有的实现量子保密通信网络的三种主要方案。
Quantum key distribution(QKD) network can be differentiated into three main categories based on different "family" of node functionalities:1)trusted relay node;
根据量子密钥分发网络节点功能的不同,可以将其分为三类:由信任方节点构成的网络;
Quantum key distribution(QKD) network can be differentiated into three main categories based on different "family" of node functionalities:1)trusted relay node;
根据量子密钥分发网络节点功能的不同,可以将其分为三类:由信任方节点构成的网络;
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