A scheme of teleportation of an arbitrary two-particle state is presented when two pairs of entangled particles are used as quantum channels.
提出应用两对纠缠粒子为量子通道时进行任意两粒子态的隐形传送方案。
Particle velocity is an important parameter describing the flow state of gas-solid two-phase flow.
颗粒的流动速度是反应气固两相流流动状况的一个重要参数。
In this scheme, a three-particle entangled state is used as quantum channel to teleport a two-qubit atomic state.
在此方案中,用一个三粒子纠缠态作为量子信道,传送两比特未知原子态。
Therefore, in order to advance the control time of polymer particle size, we should control the two proceeding parameters earlier than the three latter parameters during unsteady state operation.
因此,在非稳态操作时,要实现聚合物颗粒粒径的控制,对第一类变量的控制应早于第二类变量。
In the field of quantum teleportation, a scheme for teleporting a two-particle entangled state is proposed.
在量子隐形传态方面,我们给出了一种新的二粒子纠缠态隐形传输方案。
A scheme of teleportation of an arbitrary three-particle state is presented when a non-maximal arbitrary five-particle state and a non-maximal arbitrary two-particle are used as quantum channels.
本文提出使用一个非最大任意的五粒子态和一个非最大任意的二粒子态作为量子通道,隐形传送任意的三粒子态的方案。
We present a linear optical scheme for achieving a unity fidelity teleportation of a two-particle four-component squeezed vacuum state using two entangled squeezed vacuum states as quantum channel.
利用一对纠缠压缩真空态作为量子通道,本文提出了一种可实现单位保真度量子隐形传送两体四分量压缩真空态的线性光学方案。
We present a linear optical scheme for achieving a unity fidelity teleportation of a two-particle four-component squeezed vacuum state using two entangled squeezed vacuum states as quantum channel.
利用一对纠缠压缩真空态作为量子通道,本文提出了一种可实现单位保真度量子隐形传送两体四分量压缩真空态的线性光学方案。
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