Quantum information theory is the combination of classical information theory and quantum mechanics.
量子信息论是经典信息论与量子力学相结合的新兴交叉学科。
This Fourier transform also has applications in mathematical physics and quantum information theory.
这个傅立叶变换在数学物理和量子信息中都有其应用。
This richly-illustrated book is useful to a broad audience of graduates and researchers interested in quantum information theory.
这本富丽说明的书向对量资讯论感兴趣的毕业生和研究人员的广泛的读者有用。
Quantum information theory is at the frontiers of physics, mathematics and information science, offering a variety of solutions that are impossible using classical theory.
量信息论在物理学,数学和信息科学的国境,正在提供多种解决办法时,是不可能的使用的经典理论。
Quantum information theory is an inter-discipline of quantum mechanics and information theory, which is competent in some of impossible task within the conventional information science.
量子信息技术是量子力学和信息科学结合的产物,它可以解决许多经典信息论所不能够完成的问题。
When combined with the electromagnetic theory of the 19th century, quantum mechanics provides the blueprint for our current wireless world of information and communication.
通过与19世纪的电磁理论相结合,量子力学为我们当前所处的无线信息通信世界提供了一份蓝图。
The idea of using the more arcane aspects of quantum theory to do things that standard information technology cannot manage has been around for a while.
将量子理论当中艰涩得多的部分应用去做常规信息技术无法达成的事情,这样的想法由来已久。
The confluence of physics and information theory flows from the central maxim of quantum mechanics: at bottom, nature is discrete.
物理和资讯理论汇流自量子力学中心准则:自然根本是离散而不连续的。
This paper analyzes the properties of the quantum conditional amplitude operator. This operator plays a role similar to that of the conditional probability in classical information theory.
分析量子条件振幅算子的性质,该算子起一个类似于在经典信息理论中的条件概率的作用。
Quantum theory is used to study the fidelity of quantum information of binomial light field interacting with pair atoms of entanglement state.
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。
Quantum key distribution technique is a popular research subject in information security field, which is based on Heisenberg's uncertainty principle and no-clone theory.
量子密钥分配技术是信息安全中最热门的研究课题,它起源于量子力学中的测不准原理和未知量子态的不可克隆定理。
Our experiment result is of great importance in experimental test of some fundamental problems in quantum mechanics, information theory, cryptography, and quantum computation etc.
实验结果在量子力学基础问题的检验、信息论、密码学和量子计算等重要应用方向上,都具有显著的意义和价值。
ZYTO develops cutting edge technology that uses principles from Information Theory and Quantum Physics.
ZYTO开发的尖端技术是遵循信息理论和量子物理的原则。
Nowadays, some significant progress about quantum information has been obtained in both theory and experiment.
当前量子信息学无论在理论上,还是在实验上都在不断取得重要突破。
Quantum information science is a new subject combining quantum mechanics and classical information theory. It mainly includes two branches, namely, quantum communication and quantum computation.
量子信息学是量子力学和信息科学相结合而产生的一门新兴的交叉学科,主要包括量子通信和量子计算两个分支。
Quantum cryptography communication is a rapidly growing field, it involves many subjects, such as quantum mechanics, quantum optics, information theory, cryptography and communication technology.
量子密码通信是一个迅速成长的领域,它涉及到许多学科,如量子力学、量子光学、信息论、密码学以及通信技术等。
The information entropy squeezing properties of the atom in motion interacting with the binomial states field via single photon transition are studied by means of quantum theory.
运用量子信息熵理论研究了双光子过程中任意初态二能级原子与相干场相互作用的信息熵压缩,讨论了系统初态对原子信息熵压缩的影响。
The information entropy squeezing properties of the atom in motion interacting with the binomial states field via single photon transition are studied by means of quantum theory.
运用量子信息熵理论研究了双光子过程中任意初态二能级原子与相干场相互作用的信息熵压缩,讨论了系统初态对原子信息熵压缩的影响。
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