1) GHZ state
GHZ态
1.
Teleportation of on N-particle GHZ state via one three-particle W state;
利用一个三粒子W态隐形传送N粒子GHZ态
2.
Scheme for preparation of the GHZ state via adiabatic passage;
利用绝热过程制备GHZ态(英文)
3.
Based on the correlations of the GHZ state , using the previously shared entangled pairs lies in GHZ state , the protocol realizes QKD and QA through once quantum communication.
此方案基于GHZ态的相关性,事先在|△>态制备n对处于纠缠态的量子位。
2) GHZ states
GHZ态
1.
A quantum key distribution scheme using GHZ states between two parties is proposed.
提出了利用GHZ态的关联在通信双方之间建立密钥的方案。
2.
A scheme is presented for preparation of multi-atom GHZ states via the Raman interaction of degenerate V-type three-level atoms and one cavity field.
提出了一种利用V形三能级原子与光场Raman相互作用制备多原子GHZ态的方法 。
3.
Compared with two-particleentangled states, mult-particle ones play the more important role in the quantuminformation processing and quantum computation, such as GHZ states, W states andCluster states.
量子纠缠是量子信息科学最基本的资源,特别是多比特纠缠态(如GHZ态、W态和Cluster state),在量子信息科学中起着极为重要的作用。
3) GHZ-class state
GHZ-class态
4) GHZ class states
GHZ类态
1.
Atomic dipole squeezing in the system of the coherent states field Interacting with Entangled atoms in GHZ class states;
GHZ类态原子与相干态场作用的原子偶极压缩
2.
Squeezing properties of the coherent states field interacting with entangled atoms in GHZ class states;
GHZ类态原子体系与相干态光场相互作用的光场压缩特性
5) entangled GHZ state
纠缠GHZ态
1.
In this article,a scheme is proposed which can teleport a three-particle entangled GHZ state.
提出实现三粒子纠缠GHZ态的量子隐形传输方案。
2.
Through changing the interaction time, we can find that this system will generate entangled GHZ state in appropriate coupling coefficients, and the coupling coefficients while that the time of generating entangled GHZ state will change with the variation of system state.
在光场与原子的耦合常数选取适当情况下 ,通过改变相互作用时间 ,体系将演化为三体最大纠缠态———纠缠GHZ态 ,且光场与原子的耦合常数选取以及体系生成为三体纠缠GHZ态的时间随体系初态的不同而不同 ,这为制备三体纠缠GHZ态提供了一种有效方案 。
6) GHZ state of cavity-field
腔场GHZ态
1.
A scheme is presented to generate the GHZ state of cavity-field with the dispersive interactions between a driven atom and three acvities,the GHZ state can be obtained by state-selective measurement on the atom.
提出一种利用经典场驱动单个二能级原子与 3个单模腔场发生色散相互作用 ,最后对原子进行选择性测量 ,从而实现类自旋的腔场GHZ态的制备。
补充资料:单线态-单线态能量转移
分子式:
CAS号:
性质:处于电子激发单线态的能量给体,通过激发能的转移使能量受体处于激发单线态的过程。
CAS号:
性质:处于电子激发单线态的能量给体,通过激发能的转移使能量受体处于激发单线态的过程。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条