This scheme might be realized based on presented cavity QED techniques.
基于当前的腔qed技术,此方案是可以实现的。
The proposed scheme only requires three single-mode cavity fields and one classical field, thus it is easier to be realized in experiment by using cavity QED technique.
该方案装置简单,仅需三个单模腔场和一个经典场,且在制备过程中腔场可始终处于真空态。
For more than 30 years QED has been a leading supplier of miniature pressure gauges to the aircraft, aerospace and defense industries.
QED公司30多年来,一直是一家小型压力表生产企业,应用于航空,航天和防御工业。
Automatic controlling system by computer programs has been established for laser cooling and trapping and cavity QED experiment.
建立了一套基于计算机程序控制的、铯原子激光冷却与俘获实验所需的时序控制系统。
For the highly charged ions, the QED effect can not be disregarded.
对于高电荷态的离子,QED效应是不可忽略的。
The dimensional regularization at finite temperature is applied to calculate accurately the thermodynamic potential of two-loop QED and the overlapping divergences at arbitrary gauge.
采用有限温度下维数正规化的方法在任意协变规范下精确地计算了双圈QED的热力学势及其交叉发散。
Therefore, the proposed scheme might be realizable with current cavity QED techniques.
因此,我们的方案基于目前的腔QED技术是可以实现的。
While QED rests on a weak mathematical foundation, it has been extremely successful in predicting the outcome of experiments.
量子电动力学(QED)已经在一个脆弱的数学基础上待了太久,它已经在预测实验结果上取得了巨大的成功。
QED systems, the researchers can custom tailor the circuitry in many areas.
相对于腔QED系统,研究人员可以在许多领域自定义定制电路。
The most likely is that QED is correct, but has been misapplied in what he describes as a 「very difficult calculation」.
最可能的是量子电动力学(QED)是正确的,但是在他们所描述的复杂的计算过程中有所疏忽。
As an example, we app it to calculate the thermodynamic potential of two-loop QED and the renormalization.
作为应用的例子,计算了QED的双圈热力学势及其重整化。
Based on the above reasons, in the third chapter, we proposed the single-qubit purification and entanglement purification, also we give the corresponding realization in cavity QED respectively.
本文基于以上原因,在第三章中,我们分别提出了单量子比特纯化和量子纠缠纯化的方案,并给出了相应的腔qed实现方法。
More and more attention has been pay to cavity QED because of its unique advantages such as easy to control.
腔qed由于其易于操控等诸多优点,正越来越受到人们的重视。
In contrast to cavity QED systems, the researchers can custom tailor the circuitry in many areas.
相对于腔qed系统,研究人员可以在许多领域自定义定制电路。
In the framework of QED and QCD many theoretical studies focus on radiative energy loss induced by the multiple scattering.
在QED和QCD的框架中许多的理论工作都着重讨论了多次散射诱导轫致辐射导致的能量损失。