qed

We also discuss the magnetic mass in QED plasma .

最后还讨论了QED等离子体中的磁质量。

Study of Glass Microsphere Spectra Modified by Cavity QED Effect

玻璃微球荧光的腔量子电动力学增强效应

Brief introduction to the basic theories of cavity QED . 3 .

腔量子电动力学基本理论简介。

Scheme for Transfer of an Unknown Atomic State Via Cavity QED ;

在腔QED中实现一个未知原子态转移的方案（英文）

Scheme for Controlled Teleportation of Single Atomic State in Cavity QED

单原子态的可控隐形传态的腔QED方案

Quantum Entanglement and Information Process in Cavity QED and Heisenberg Spin System

腔QED与海森堡自旋系统中的量子纠缠与信息处理

Based on cavity QED techniques presently the proposed scheme might be realizable .

本方案利用现有的QED技术是可行的。

A Scheme for Transferring Quantum Information via Cavity QED

一个传送量子信息的腔QED方案

Progress of Cavity QED in the Regime of Strong Coupling : A Review

强作用腔量子电动力学的研究进展

Preparation of multiple separate cavity fields entanglement in cavity QED

利用腔量子电动力学技术来制备多个分离腔场的纠缠

Preparation of Atom Entangled States Based on Cavity QED

基于腔QED的原子纠缠态的制备过程

Nowadays , cavity QED is considered as the most important and promising protocol .

目前，腔QED被认为是最重要和最有前景的一种方案。

In addition , the experimental feasibility within the realm of cavity QED is analyzed .

此外，讨论了在现有实验技术下本方案实现的可能性。

Direct Calculation of Retarded / Advanced Green Function and Bremsstrahlung in Thermal QED

超前/推迟格林函数的直接计算与热QED中的韧致辐射

Through the QED method , the dipole emission density and system energy decay equation were obtained .

通过QED方法，我们得到偶极子辐射密度方程和系统能量衰变方程。

Remote Preparation of an Arbitrary Superposition of Coherent States in Cavity QED

基于腔QED的任意相干叠加态远程制备方案

Proposal for realizing probabilistic teleportation of atomic state via cavity QED

概率隐形传送原子态的腔QED方案

Implementation of Quantum Logic Gates Using a Two-level Trapped Ion in Cavity QED

用腔场中的二能级势阱离子实现量子逻辑门

The detailed process in cavity QED is discussed in the scheme . The scheme is Based on the .

我们在这个方案中详细地讨论了基于腔QED技术最简单版本的Deutsch-Jozsa量子算法的实现过程。

The cavity QED system and the trapping ion technology are two ideal physical implementation systems for quantum information processing .

腔QED和离子阱作为实现量子信息处理过程的两种重要物理实现系统，在量子信息科学中扮演着十分重要的角色。

The application of this identities to the QED and quark-gluon system were given .

给出了它在QED和quark－单胶子系统中的应用；

Therefore , in a series of existing cavity QED technology , the scheme is feasible in the experiment .

因此，在现有的一系列腔QED技术下，我们的方案在实验上是可行的。

Cavity QED , as one of promising physical systems to realize quantum information processing , has attracted significant interest .

作为实现量子信息处理有前途的一种物理实现系统，腔QED系统已引起人们极大地兴趣。

Establishment of multi-user quantum channel of entangled multi-atom based on cavity QED

基于腔QED的多用户间的多原子量子信道的建立

Studying the cooperative effects of nonidentical atoms in cavity QED

量子微腔中不同原子合作效应之研究

Controlled Assisted Cloning of An Unknown Three-atom Entangled State Via Cavity QED

腔QED系统中三原子纠缠态的受控辅助克隆

Further more , the scheme for realizing QSS in cavity QED is also proposed .

在此基础上，还提出了量子秘密共享的腔QED实现方案。

Quantum Communication Schemes via Cavity QED

量子通信的腔QED方案

We propose a scheme for quantum entanglement swapping in driven cavity QED .

提出了一种外场驱动下在腔QED中实现量子纠缠交换的方案。

Test of QED by MARK - J Collaboration

MARK-J实验组关于量子电动力学的检验