1.
Researches on Quantum Entanglement and Quantum Algorithm with Cavity QED and Trapped Ions;
基于腔QED和囚禁离子的多比特纠缠态和量子算法研究
2.
Preparation of Multi-qubit Entangled States Via Atomic Cavity QED
多量子比特纠缠态制备的腔量子电动力学方案
3.
Remote preparation of a class of three-qubit entangled states
一种类型的三量子比特纠缠态远程制备
4.
Two-Mode Excited Entangled Coherent States and Their Entanglement Properties;
两模激发纠缠相干态及其纠缠特性研究
5.
Quantum Entanglement and Nonlocality of Multiphoton Entangled States;
多光子纠缠态的量子纠缠与量子非局域性
6.
The Entangled Properties in the Interaction between Two-mode Squeezing Vacuum State Field and Entangled Atoms;
双模压缩真空态光场与纠缠态原子相互作用系统中的纠缠特性
7.
Local Discrimination and Schmidt Decomposition of Multipartite Quantum States in Quantum Information Theory;
量子信息论中多体纠缠态的局域分辨与施密特分解
8.
Research on Multi-particle Entangled State QTDM Communication Scheme and QMU Protocol
多粒子纠缠态QTDM通信方案及QMU协议
9.
Pairwise Entanglement in the Four-qubit Heisenberg XX Open Chain
四量子比特Heisenberg XX开链中的成对纠缠
10.
You shouldn't tangle with him -- he's much stronger than you!
你不应与他发生纠缠。他比你强壮得多!
11.
Multi-particle Quantum Teleportation with Thermal Entangled Quantum Channel;
多粒子态及量子热纠缠信道中的隐形传态
12.
Teleportation of Multi-Particle Quantum State & Quantum Thermal Entanglement;
多粒子量子态的隐形传态和量子热纠缠
13.
Remote State Preparation in Cavity QED and the Entanglement of a Two-qubit Heisenberg Spin Model;
腔QED系统中的远程态制备及两量子比特海森堡自旋模型的纠缠特性
14.
The Decoherence of the Double-mode Multi-photon Entangled State and the Polyatomic System
双模多光子纠缠态与多原子体系的消相干
15.
Polychromatic Electromagnetically Induced Transparency and the Preparation of Entangled States
多色电磁感应透明与量子纠缠态的制备
16.
Linear and Nonlinear Multipartite Entangled State Representation
线性及非线性多模量子连续纠缠态表象
17.
Entanglement of formation for high dimensional quantum states is investigated. An analytical expression of the entanglement of formation for a special quantum mixed states is obtained.
研究了高维量子混合态的生成纠缠,给出了一类特殊量子混合态的生成纠缠的解析表示。
18.
It is shown that the quantum entanglement state will stay in the maximally entangled state for a long time when the detuning is equal to Rabi frequency.
研究结果表明:在失谐量等于拉比频率时,该体系的纠缠度将长时间处于最大纠缠态。