1) Spin type GHZ state
类自旋GHZ态
2) 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
3) electronic entangled GHZ class state
类电子纠缠GHZ态
1.
An effective scheme to teleport an unknown n-trapped-ion electronic entangled GHZ class state is presented.
利用n+1个两能级离子的纠缠GHZ态作为量子隐形传送的量子通道,提出一个有效的方案隐形传送未知n个离子的类电子纠缠GHZ态。
4) 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。
5) 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。
6) Spin-glass like state
类自旋玻璃态
补充资料:自旋-自旋弛豫
自旋-自旋弛豫
磁共振成像术语。又称T2弛豫或横向弛豫(transverse relaxation),指垂直于外磁场B0方向的磁化矢量的指数性衰减过程。磁共振成像时,对置于外磁场B0中的自旋系统施加90°射频脉冲,则自旋系统被激励,其净磁化矢量指向与外磁场B0垂直;射频脉冲终止后,被激励的质子与邻近的原子核之间发生相互作用,逐渐失去相位,净磁化矢量指向恢复与外磁场平行,该过程称自旋-自旋弛豫。自旋-自旋弛豫过程无能量交换。
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