1) Secure Quantum Communication
安全量子通讯
2) quantum secure direct communication
量子安全直接通讯
1.
It has created many miracles, such as absolute secure quantum key, quantum dense coding, quantum teleportation, especially quantum secure direct communication which is proposed recently.
量子信息科学是由量子力学和信息科学相结合的新兴交叉学科,近二十年来,量子信息科学在理论和实验上都取得了突破性的进展,如构建出绝对安全的量子秘钥分发、量子密集编码、量子隐形传态,尤其是最近提出的量子安全直接通讯。
3) controlled quantum secure direct communication
控制量子安全直接通讯
1.
The paper presents a controlled quantum secure direct communication scheme by using Greenberger-Horne-Zeilinger(GHZ) states.
我们利用Greenberger-Horne-Zeilinger(GHZ)态,提出了一个控制量子安全直接通讯方案。
5) Communication Security
通讯安全
1.
The Communication Security of Electronic Banking Systems in Our Country;
电子银行系统的通讯安全问题研究
6) quantum communication
量子通讯
1.
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。
2.
From this statistical separability, we prove that the superluminal quantum communication betwcen different points is impossible.
分析了量子力学中的空间关联与通讯的关系与差别 ,提出了统计可分隔性概念 ,由此证明了超光速量子通讯不可能 。
3.
It would be helpful to the students to understand the principles of quantum communication,and the theory of polarization entanglement and the double-photon entangled states produced by the spontaneously parametric down-transversion.
以量子纠缠源为实验对象,以光量子纠缠态的制备、传输和纠缠性质的测量为内容设计实验,有利于学生学习量子通讯的基本原理及偏振纠缠、自发参量下转换产生双光子态量子理论。
补充资料:单量子阱(见量子阱)
单量子阱(见量子阱)
single quantum well
单且子阱sillgle quantum well见量子阱。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条