2) quantum entanglement
量子纠缠
1.
The quantum entanglement of the two-photon Tavis-Cummings model;
双光子Tavis-Cummings模型中的量子纠缠
2.
New theory of quantum entanglement;
量子纠缠的新理论(英文)
3.
Quantum Entanglement and Decoherence;
量子纠缠和消相干的研究
3) entanglement
[英][ɪn'tæŋɡlmənt] [美][ɪn'tæŋgḷmənt]
量子纠缠
1.
The Formula of Entanglement Evaluation for Two-Electron Systems;
双电子系统量子纠缠的计算公式
2.
By using the concept of negativity, we investigate entanglement of (1/2,1) mixed-spin anisotropic XY model and obtain the numerical results of entanglement of two spins in a transverse field at finite temperature.
通过引入negativity的概念,研究了(1/2,1)混合自旋各向异性XY模型的量子纠缠,得到了两个自旋在外场中的有限温度时的量子纠缠的数值结果。
3.
In addition to being of fundamental interest in quantum mechanics, entanglement as quantum correlations among quantum systems is a key element in rapid developing quantum informatics.
首先,在三能级中,采用四波混频的方法制备出连续变量的量子纠缠态。
4) entangled state
量子纠缠态
1.
The fundamental principles and the main experimental advances of quantum teleportation about two_photon entangled states were reviewed.
量子纠缠态是量子力学的精髓。
2.
Based on the necessity and importance of the quantum information theory, this paper chooses three aspects of quantum communication to study: Von Neumann entropy of quantum entangled state, controlled exchange of quantum entangled state, controlled quantum dense coding.
基于量子信息论发展的必要性及重要性,本论文选取量子通信领域中的量子纠缠态的Von Neumann熵和量子纠缠态交换控制以及量子稠密编码控制作为研究点,并从理论上进行研究。
3.
First, we introduce EPR entangled state in Fock space.
此外,还研究了在量子纠缠态作为量子通讯和量子计算的载体,已被广泛地应用于量子压缩理论、量子光学相算符、及量子隐形传态等领域。
5) quantum entangled state
量子纠缠态
1.
Universal telecloning of quantum entangled states;
量子纠缠态的普适远程克隆
2.
This paper describes what is quantum bit and what is quantum entangled state, and how to realize Bell state by using quantum circuit, proposes a quantum circuit of simple structure to realize quantum teleportation based on Bell State.
文章从信息论的角度描述了量子比特、量子纠缠态,如何利用量子线路实现Bell态,提出了一种利用Bell态实现隐形传态的简单结构的量子线路,证明该量子线路是可行的,为进一步研究量子密码通信奠定了基础。
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