您要查找的是不是:
- 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。
- 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。
- QGA combining the genetic algorithm and the quantum information theory has a large search space with small population and a good global search capability, while image sparse decomposition based on MP is an optimal problem, so it can be fast solved by QGA. 量子遗传算法能用较小的种群规模实现较大的空间搜索,全局寻优能力强,匹配追踪的图像稀疏分解是最优化问题,因此可用量子遗传算法快速实现。
- The quantum behavior of atomic objects is the same. 原子客体的量子行为都是相同的。
- The quantum of light is called a photon. 光的量子就称为光子。
- The Essential Character and Philosophical Meanings of the Quantum Information 量子信息的本质特征及哲学意义
- Multi-party Secret Sharing of Quantum Information in Cavity QED[J]. 引用该论文 李松梅;姜雪洁;张寿.
- Liability was admitted by the defendant, but the case went to trial because they could not agree the quantum of damages. 被告承认有责任,但案子还是拿到法庭审判,因为双方当事人不能就损害赔偿金金额达成协议。
- The quantum numbers differ not at all. 量子数根本没有差别。
- Attention is concentrated on the quantum theory. 重点是在掌握量子理论上。
- For example, Bohm introduced the quantum potential. 举个例子,介绍了量子电位。
- the quantum information 量子信息
- The file was changed outside of the Quanta editor. 文件在 Quanta 编辑器之外发生了更改。
- 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。
- The quantum theory is not just an esoteric addendum. 量子理论并不只是一个深奥的附录。
- 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。
