优化相干态量子隐形传态的保真度。
Optimizing the fidelity of coherent state of quantum teleportation.
优化薛定谔猫态量子隐形传态的保真度。
Optimizing the fidelity of Schrodinger cat states of quantum teleportation.
而且,它还可以用来实现控制的量子隐形传态。
In addition, it can also be modified to implement controlled teleportation.
此外,我们也获得了该量子隐形传态方案的成功几率。
Moreover, we also obtain the success probability of the teleportation scheme.
另外,量子隐形传态在量子稠密编码和量子密码术中有许多应用。
Moreover, it may have applications in quantum dense coding and quantum cryptography.
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。
In the field of quantum teleportation, a scheme for teleporting a two-particle entangled state is proposed.
在隐形传态的过程中,操作的秩序并不影响成功实现量子隐形传态的概率。
In the process of the teleportation, the successful probability is not affected by the order of operations.
最后,我们对本文的工作做了一个简单的总结,并对量子隐形传态的前景作了简单的展望。
Finally, we do the work of this paper, a simple conclusion, and quantum teleportation state made the prospect of a simple vision.
为此,我们研究了相位退相干和振幅退相干环境对纠缠、量子隐形传态和量子非局域性质的影响。
We investigate the entanglement, quantum teleportation, and quantum non-locality affected by the phase de-coherence and amplitude de-coherence of the environment.
量子通信是量子信息学的一个重要分支,主要包括量子隐形传态、量子稠密编码、量子秘钥分配等。
Quantum communication is an important branch of quantum information, embracing quantum teleportation, quantum dense coding, quantum key distribution and so on.
此外,量子信息能开发出许多经典信息所无法做到的新的信息功能,如量子隐形传态、量子密集编码等。
Furthermore, quantum information can develop a lot of new information functions that classical information doesn't have, such as quantum teleportation, quantum dense coding, etc.
量子通信是量子信息中的一个重要分支,而其中最典型的量子通信技术是量子隐形传态和量子密码通信。
Quantum communication plays an important role of quantum information. The most typical quantum communication technology are quantum teleportation and quantum cryptography communication.
量子远程态制备与量子隐形传态有着相同的目的,所不同的是在远程态制备中被传送的量子态对发送方是已知的。
RSP has the same goal with the quantum teleportation. The main difference between RSP and teleportation is that in the former the sender is assumed to known fully the transmitted state.
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。
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.
它是量子信息学的重要分支也是量子信息学中研究较早的领域,包括量子隐形传态、量子克隆、量子秘密分享等等。
It is an important and early researched branch of quantum information, including quantum teleportation, quantum cloning, quantum secret sharing, etc.
另外,在第四章中,我们详细讨论了混态对量子隐形传态的影响,并研究了对混态进行纯化后隐形传态的保真度问题。
In addition, in the fourth chapter, we discussed the impact which mixed states made on quantum teleportation in detail, also we studied the fidelity after teleportation the purified mixed states.
在隐形传态过程中,两个单位的经典比特和一个单位的纠缠是实现一个量子比特信息传输的充要条件。
Two bits of forward classical communication and one bit of entanglement per teleported qubit are both necessary and sufficient during the process of teleportation.
在隐形传态过程中,两个单位的经典比特和一个单位的纠缠是实现一个量子比特信息传输的充要条件。
Two bits of forward classical communication and one bit of entanglement per teleported qubit are both necessary and sufficient during the process of teleportation.
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