网络 量子电动力学; 腔量子电动力学; 学效应; 力学; 证明完毕
BNC.37504
abbr.
- 证明完毕,证讫(源自拉丁文quod erat demonstrandum)
that is what I wanted to prove and I have proved it (from Latin quod erat demonstrandum )
英英释义
noun
- a relativistic quantum theory of the electromagnetic interactions of photons and electrons and muons
Synonym: quantum electrodynamics
- 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 - The Generation of Entanglement State and the Implementation of Phase Gate Base on Trapped Ion and Caity QED System
基于离子阱和腔QED系统制备纠缠态和实现相位门 - 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 - Teleportation for Atomic State via W State and Purifying Non-Maximally on Cavity QED
一般W态传送原子态并用腔QED提纯非最大纠缠态 - 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) - Realization of Two-bit Quantum-state Sharing Protocol with Four-particle Cluster State via Cavity QED
四粒子簇态实现两比特量子态分享的QED方案 - Preparation of Atom Entangled States Based on Cavity QED
基于腔QED的原子纠缠态的制备过程 - 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 - 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 - Schemes for Realizing Parametric Down-conversions in Cavity Quantum Electrodynamics
基于腔QED来实现参量下转换过程的方案 - 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 - 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。 - We propose a scheme on secret sharing of an arbitrary two-atom entanglement via entanglement swapping in cavity QED.
提出一个利用纠缠转换在腔QED中来实现秘密共享一个任意两原子纠缠态的方案。 - Then we give an overview of the cavity-QED experiments setups.
然后对腔QED的实验装置做了简要介绍。 - Our numerical results are in agreement with the Quantum Electrodynamics ( QED) prediction with in the error.
结果与量子电动力学(QED)的预言一致。 - Implementing teleportation in cavity QED.
基于腔量子电动力学(腔QED)的量子隐形传态方案。 - 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。 - 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; - We present a scheme to teleport an unknown atomic entangled state in driven cavity QED.
本文提出了一个在量子电动力学(QED)腔场中传送未知的两原子纠缠态的方案。 - 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。 - 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。 - So we can fulfill the process of quantum information.
利用腔QED系统可以实现原子量子比特和光子量子比特之间的转变,从而完成量子信息过程。 - 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 quantum electrodynamics ( cavity QED) is one of physical system which can realize the quantum entanglement.
腔量子电动力学(腔QED)是一种可以实现量子纠缠的物理体系,它具有非常好的前景。 - One of cavity QED systems is to study the atom-cavity interaction, i.e. atom-cavity systems.
腔QED系统研究的一个重要物理系统是原子-腔相互作用系统。 - The combination of quantum mechanics and information science results in the birth of quantum information.
而量子力学与近代技术及信息学相结合导致了量子信息学的诞生,腔QED作为量子信息的候选者一直受到人们的关注。 - 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。 - Finally, the two-photon transition is studied using the research method of spontaneous emission in quantum electrodynamics.
最后用QED中研究光场辐射的方法研究此四能级系统的双光子跃迁。 - The entropy correlation and entanglement of a moving atom interacting with k-photon Jaynes-Cummings model are investigated.
研究了k光子Jaynes-Cummings腔QED模型与运动原子相互作用中的熵相互关系及纠缠特性。 - We study the problem of how to keep coherent characteristics of multi-atom entanglement state in the cavity QED system.
研究多原子纠缠态在腔QED中的相干保持问题。