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- Multi-party Secret Sharing of Quantum Information in Cavity QED[J]. 引用该论文 李松梅;姜雪洁;张寿.
- The quantum information can be taken from the classical description of physics by Feynman path integrals. 通过费曼路径积分可以从物理学的经典描述中提取量子信息。
- There are already many books and conferences on quantum information, even though the field is new. 尽管量子信息这个领域很新,但早就有很多相关的教科书和讨论
- Research results on communication theory aspects of genetics, bioinformatics and quantum information processing. 通信专业研究生研究方向展望。
- We can dare to say, no quantum entanglement phenomena, no quantum information of today. 可以说如果没有量子纠缠现象,就不会有现在所说的量子信息。
- In quantum information science, there are two basic conceptions: quantum gate operation and quantum state. 在量子信息科学中,有两个基本的概念:量子门操作和量子态。
- Furthermore, it can effectively change quantum information fidelity when the appropriate detuning is selected. 此外,选择适当的失谐量,能够有效地改变量子信息的保真度。
- Richard P. Feynman biography. Feynman, an MIT graduate, was curious about the nature of quantum information. 费曼自传。费曼,麻省理工学院毕业生,研究的兴趣是量子信息实质。
- The coupling action between atoms mainly effected the swapping process of quantum information. 原子间的耦合作用主要影响量子信息的交换过程。
- In this QKD network, an eavesdropper can launch a path-attack on the quantum channel to eavesdrop quantum information. 在该量子密钥分发网络中,由于光学节点的插入损耗及用户之间量子信道损耗的影响,窃听者可以实施路径攻击来获取量子信息。
- Quantum entanglement is the key to quantum information and quantum teleportation, and special quantum correlations with superspace and nonlocality. 量子纠缠是量子信息与量子隐形传态的关键。量子纠缠是一个特殊的超空间、非定域的量子关联。
- Quantum theory is used to study the fidelity of quantum information of binomial light field interacting with pair atoms of entanglement state. 摘要应用全量子理论研究了初始处于纠缠态双原子与二项式光场共振相互作用的光场量子信息保真度。
- The next step toward quantum information processing with impurity spins is controlling the coupling between two spins to perform quantum logic. 因此,以杂质自旋做量子资讯处理的下一步,就是操控两个自旋间的耦合,以执行量子逻辑运算。
- In the rapidly developing field of quantum information, investigation of quantum entanglement is always a very active area. 在迅速发展的量子信息领域,量子纠缠的研究一直是一个非常活跃的领域。 这些研究包括多粒子纠缠量子态的产生、操纵及其与量子非局域性的关系。
- Birgitta Whaley at the Berkeley Center for Quantum Information and Computation and pals say this can only happen if the chromophores are entangled. 你们自己不会做学问,就让学生跟踪高档学术刊物,人家做什么,你们就做 什么。
- Can spins in solids maintain quantum information long enough to perform a useful number of operations on that information? 量子资讯有没有办法留在固体里的自旋上够久的时间,让我们对该资讯执行足够的计算?
- Decoherence due to the interaction of quantum systems and environment is mainly difficult to application of quantum information. 然而在实际应用中,由于系统与环境的相互作用而导致的退相干已成为量子信息学研究目前遇到的最大困难。
- Quantum Error Correcting Code(QECC) is an important topic in quantum information and has been deeply discussed in recent literature. 量子纠错码(QECC)是量子信息中的重要问题,且在近年来的研究中得到广泛的关注。
- The communication link between sender and receiver is built by quantum entanglement, and quantum information is transferred by the principle of quantum teleportation. 利用量子纠缠在发信者与收信者之间建立通信链路,使用量子隐形传态进行量子信息传输。
- Quantum information science is new enough that researchers are still coming to grips with its very nature, and they disagree about which questions lie at its heart. 量子资讯科学这门学问还太新,所以研究人员仍在摸索它的本质,彼此之间对于哪些问题才是核心问题的看法也还不一致。