Quantum communication plays an important role of quantum information.
量子通信是量子信息中的一个重要分支。
These properties can be used to quantum communication and quantum cryptography.
这些性质可以被用于量子通讯和量子密码术。
This thesis focuses on quantum communication scheme and quantum multiuser communication.
本文围绕量子通信方案和量子多用户通信展开研究。
As a subject of quantum information science, quantum communication has been researched for many years.
量子通信是量子信息学中研究较早的领域。
In contrast to quantum communication, quantum computing is also the focus of quantum information science.
与量子通信相对应地,量子计算目前也是量子信息科学的重点研究对象。
In the dissertation, we analyze the structure traits of PCF and its applications in quantum communication.
本文对光子晶体光纤的结构特性及其在量子通信中的应用进行了分析。
Quantum communication is an unconditional secure communication manner using qubits to transmit information.
量子通信是利用量子位进行信息传送的一种绝对安全的通信方式。
First of all, the theoretical principle and basic form of quantum communication is introduced in this thesis.
首先,论述了量子通信的基本形式,介绍了量子通信的理论基础。
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。
The CV quantum communication has attracted wide interest due to the potential advantages such as high bit transmission rate.
连续变量量子通讯具有比特效率高等潜在优越性,所以引起了广泛的研究兴趣。
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。
This paper will mainly discuss how to realize the single-qubit gate operation in molecules and the quantum communication in linear optical system.
本文主要讨论如何在线性光学系统中实现量子通讯和在分子中实现单比特量子门。
The proposed quantum synchronous communication protocol will find its great significance both in classical communication and in quantum communication.
该量子同步通信协议在经典通信和量子通信中都有重要的应用价值。
As a kind of quantum coding scheme, quantum error-correction coding is the foundation of realization of quantum communication and quantum computation.
量子纠错编码作为其中的一种量子编码方案,是量子通信和量子计算实用化的基础。
Quantum communication is an important branch of quantum information, embracing quantum teleportation, quantum dense coding, quantum key distribution and so on.
量子通信是量子信息学的一个重要分支,主要包括量子隐形传态、量子稠密编码、量子秘钥分配等。
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。
This will affect quantum information processing, and thus cause the loss of quantum information. Therefore, we need to investigate quantum communication via mixed states.
也就是说,消相干和解纠缠在量子信息处理过程中是不可避免的,这将使纯的量子通道退化为混态量子通道。
The application of quantum computation and quantum communication principle in the human body, the human is able to bounce tap somersault cloud one hundred and eight thousand!
将量子计算与量子通信的原理应用在人类身上,人类便如同掌握了可以十万八千里蹦跶的筋斗云!
But a quantum communication satellite USES a crystal that produces a pair of entangled photons whose properties remain entwined even as one is transmitted over a large distance.
量子通信卫星用的则是一种结晶体,这种晶体会产生一对相互纠缠的光子。即便将其中一个传输到很远之外,它们的属性依然会纠缠在一起。
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。
Squeezed light is important nonclassical light state of quantum optical experiments. It is applied widely in quantum information, quantum communication and precise measurement etc.
压缩态光场是量子光学实验研究中的重要非经典光场,广泛应用于量子信息、量子通信、精密测量等领域。
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。
Quantum information is a new subject that is a combination o quantum mechanics, information science and computer science, which includes quantum communication and quantum computation.
量子信息是量子力学与信息科学、计算机科学相结合而形成的新兴的交叉学科,包括量子通信和量子计算两个主要方面。
Quantum communication plays an important role of quantum information. The most typical quantum communication technology are quantum teleportation and quantum cryptography communication.
量子通信是量子信息中的一个重要分支,而其中最典型的量子通信技术是量子隐形传态和量子密码通信。
Quantum communication is a very important branch of quantum information. At present, it mainly contains quantum teleportation, quantum dense coding, quantum key distribution, and so on.
量子通信是量子信息学的一个非常重要的分支,目前主要涉及到量子隐形传态、量子密集编码、量子密钥分配等。
So, we develop the photon coincidence instrument using by modern circuit and computer, it is very important measure instrument in common use for quantum communication and information processing.
本文研制的光子符合仪就是利用现代电路和计算机技术实现的量子通信和信息处理中最常用、最重要的测试仪器。
Quantum information science is a new subject combining quantum mechanics and classical information theory. It mainly includes two branches, namely, quantum communication and quantum computation.
量子信息学是量子力学和信息科学相结合而产生的一门新兴的交叉学科,主要包括量子通信和量子计算两个分支。
Quantum information science is a new subject combining quantum mechanics and classical information theory. It mainly includes two branches, namely, quantum communication and quantum computation.
量子信息学是量子力学和信息科学相结合而产生的一门新兴的交叉学科,主要包括量子通信和量子计算两个分支。
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