1) quantum key
量子密钥
1.
Principle, communication protocol of quantum key distribution and its applications;
量子密钥分配原理、通信协议及应用
2.
In order to increase the distribution efficiency in the quantum key distribution(QKD) process,decrease the channel requirements and finish the user identification process at the same time,a new QKD protocol with only one quantum channel is proposed,in which the sending and receiving processes of carrying photons are performed just by one of the communicators.
为了提高量子密钥的分发效率,降低信道要求,并在密钥分发过程中实现身份认证,提出了一种新的量子密钥分发协议,在该协议中载波光子的发送与接收仅由一方完成。
3.
Nowadays,the study of quantum cryptography become more and more important,the most significant research direction of which is how to distribute the quantum key.
介绍了为验证量子密钥分发协议而设计的专用数据采集系统。
2) quantum key distribution
量子密钥
1.
The experimental research on a stable free-space quantum key distribution system with low noise;
稳定的低噪声自由空间量子密钥分配实验研究
2.
Phase-modulated free space quantum key distribution;
相位调制自由空间量子密钥分配
3.
The quantum key distribution of BB84 protocol is simulated on the computer at the end of the paper.
最后用BB84协议对量子密钥生成与分发进行了程序模拟。
3) quantum key distribution
量子密钥分配
1.
Efficient quantum key distribution scheme using the Bell States;
利用贝尔态的高效量子密钥分配协议
2.
Developments of free-space quantum key distribution;
自由空间量子密钥分配的发展状况
3.
Real-time low-frequency vibration phase drift tracking and auto-compensation in phase-coded quantum key distribution system;
相位调制量子密钥分配系统中低频振动相移的实时跟踪补偿
4) quantum key distribution
量子密钥分发
1.
Study on key transmission rate and BER of fiber-based quantum key distribution system;
光纤量子密钥分发系统中密钥传输率和误码率的研究
2.
Stable quantum key distribution with polarization control;
偏振稳定控制下的量子密钥分发
3.
Scheme design and improvement of quantum key distribution network;
量子密钥分发网方案的改进设计
5) quantum key bit rate
量子密钥比特率
1.
Study on quantum key bit rate in free-space quantum cryptography;
自由空间量子密码通信中量子密钥比特率研究(英文)
6) quantum key distribution (QKD)
量子密钥分配
1.
Basing on to B92 protocol, an experimental free-space quantum key distribution (QKD) system has been developed.
基于量子密钥分配的基本原理,采用B92方案,以单光子作为信息载体,使用极化编码,搭建了一个简单易行的实验装置,实现了自由空间传输的量子密钥分配,平均每脉冲光子数为0。
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