Quantum entanglement is an important resource of quantum information science.
量子纠缠是量子信息的重要资源。
Quantum entanglement is the most fundamental resource of quantum information science.
量子纠缠是量子信息科学最基本的资源。
As a subject of quantum information science, quantum communication has been researched for many years.
量子通信是量子信息学中研究较早的领域。
In contrast to quantum communication, quantum computing is also the focus of quantum information science.
与量子通信相对应地,量子计算目前也是量子信息科学的重点研究对象。
Quantum information processing with continuous variables is an important part in quantum information science.
连续变量量子信息是量子信息科学研究的一个重要内容。
Chapter 1 gives a short introduction on the quantum information science and the outlines of this dissertation.
在第二章中,我们介绍了量子信息学中的一些基本概念,为之后几章的论述打下基础。
Yao is a 2000 Turing Award winner who has long been engaged in the study of computer quantum information science.
姚期智长期从事计算机量子信息科学研究,在2000年的时候获得了图灵奖。
We need to study different photon interference, which will offer much more methods for quantum information science.
因此对光子干涉本身的研究将为其在量子信息中的应用提供更好的方法。
In a word, the birth of quantum information science brings new activity into the future information science and technology.
总之,量子信息科学的诞生,为未来的信息科学和技术注入了新的活力。
The making and manipulation of entangled atom-photon pairs are useful for, e. g., high-precision interferometry and quantum information science.
在高精度测量和量子信息科学中,制备和操纵原子—光子纠缠对具有重要作用。
Because of the advantage in scalability, quantum computing based on semi-conductor quantum dots (QD's) becomes one of the frontier subjects in quantum information science.
因为具有潜在的大规模集成的优点,基于半导体量子点系统的固态量子计算成为固态量子信息处理领域中的一个研究热点。
Such super-bunched light is non-classical and can be used for quantum storage and retrieval in quantum information science. The main works of this dissertation are as follows:1.
相比反聚束效应而言,强聚束效应存在于一些多光子态如双光子相干态中,它们有望用于量子计量、量子存储等方面。
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 information science is a new discipline, which is a combination of quantum mechanics and information science. Quantum computation and quantum communication are two important branches of it.
量子信息是近十几年来量子理论和信息科学相结合的新型交叉学科,它通常包括量子计算和量子通信两部分。
Quantum communication is an important branch of quantum information science, mostly involving quantum teleportation, quantum dense coding, quantum secret share, quantum key distribution, and so on.
量子纠缠是量子力学最突出的性质之一,它在量子信息学中的各个领域都具有重要的作用,量子纠缠态的产生和操作日益受到人们的关注。
Quantum information is a new subject that is a combination o quantum mechanics, information science and computer science, which includes quantum communication and quantum computation.
量子信息是量子力学与信息科学、计算机科学相结合而形成的新兴的交叉学科,包括量子通信和量子计算两个主要方面。
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。
Quantum entanglement is an important physical resource, which can be applied significantly in the quantum information processing and computation science.
量子纠缠是一种重要的物理资源,在量子信息和计算科学中有重要应用。
Quantum information originates from quantum mechanics and information science.
量子力学和信息科学结合产生了量子信息学。
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 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。
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