| 1. | Since then , quantum teleportation has developed rapidly
从那以后,量子隐形传态有了快速的发展。 |
| 2. | Entanglement translation and quantum teleportation of the single - photon entangled state
单光子纠缠态的纠缠转移和量子隐形传态 |
| 3. | The information can be decoded using the results of the measurement as the key [ see “ quantum teleportation , ” by anton zeilinger ; scientific american , april 2000 ]
利用测量的结果当做钥匙,可用以将资讯解码(见延伸阅读3 ) 。 |
| 4. | The principles of quantum teleportation : the information of original can be divided into classical information and quantum information
量子隐形传态的基本思想为:为实现传送某一物体的未知量子态可将原物的信息分为经典信息和量子信息。 |
| 5. | Note that quantum teleportation , originally proposed by bennett et al in 1993 , is one of the most strikingly interesting field in quantum communication
其中,量子隐形传态是量子通信领域中最引人注目的方向之一,这一概念是由bennett等人在1993年最早提出的。 |
| 6. | Quantum teleportation allows transmit an unknown quantum state from a sender , traditionally named alice , to receiver , or bob , both are spatially separated
量子隐形传态可以从发送者(通常称为alice )处传输一个未知量子态给接收者(通常称为bob ) ,发送者和接收者是空间远离的。 |
| 7. | Based on qutantum entanglement , quantum entanglement in the quantum communication has been profoundly discussed and approach of the exceed - velocity of light by quantum teleportation has been brought about
在介绍量子纠缠特性的基础上,对量子隐形传态进行了探讨,提出了超光速量子通信的途径。 |
| 8. | Quantum communication is a very important branch of quantum information . at present , it mainly contains quantum teleportation , quantum dense coding , quantum key distribution , and so on
量子通信是量子信息学的一个非常重要的分支,目前主要涉及到量子隐形传态、量子密集编码、量子密钥分配等。 |
| 9. | Quantum entropy theory is the foundation and powerful tool in understanding and studying such problems as quantum computation , quantum communication , quantum teleportation , quantum measurement and quantum entanglement
它是理解和研究量子计算、量子通信、量子隐形传态、量子测量、量子纠缠等热点课题的理论基础和有力工具。 |
| 10. | The quantum teleportation of continuous variables with two - mode squeezed vacuum states is reviewed . its importance and advantages relative to the quantum teleportation of discrete variables are discussed
介绍了通过双模压缩真空态实现连续变量量子隐形传态的方法,并探讨了这一工作的重要意义及其相对于分离变量量子隐形传态的优越性 |
