In contrast to cavity QED systems, the researchers can custom tailor the circuitry in many areas.
与腔QED系统相比,研究人员可以在许多领域定制电路。
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。
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。
In chapter 5, the method of concentrating non-maximally entangled states is proposed using thermal cavity QED model.
第五章提出了利用腔qed系统浓缩非最大纠缠态的方法。
The result shows that the geometric phase in this cavity QED system is fault-tolerant not only against the classical noise induced by the parameter fluctuation but also against the quantum noise.
上述结果表明几何相位不仅对由系统参数变化所引起的经典噪声具有抗干扰性,同样对量子白噪声也具有抗干扰性。
The result shows that the geometric phase in this cavity QED system is fault-tolerant not only against the classical noise induced by the parameter fluctuation but also against the quantum noise.
上述结果表明几何相位不仅对由系统参数变化所引起的经典噪声具有抗干扰性,同样对量子白噪声也具有抗干扰性。
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