They include "quantum entanglement", in which events affecting one group of atoms instantly affect another group, no matter how far apart they may be.
它们包括了“量子纠缠”,即影响一组原子的事件会立即影响另一组原子,不管相距有多远。
Another quantum effect is quantum entanglement.
另一种量子效应是波粒二象性。
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 one of the most profound features of quantum mechanics.
量子纠缠是量子力学最显著的特征之一。
The quantum entanglement is one of non-classical phenomena of quantum mechanics.
量子纠缠是量子力学中的一种非经典现象。
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。
In the third chapter, we introduce the history and concept of the quantum entanglement in detail.
第三章详细地阐述了量子纠缠产生的历史背景及其基本概念。
The quantum entanglement had been paid attention to by many physicists and philosophers since it was put forward.
量子纠缠从被提出开始,就为广大的物理学家及哲学家所关注。
It has not been achieved as quantum entanglement yet, but it's the important step that everyone has to make to get there.
量子纠缠尚未完成,但是这是必须要走的很重要的一步。
This dissertation does a research in the measure of quantum entanglement, its property and entanglement transformation.
本文围绕量子纠缠的度量、性质和纠缠的转换进行了研究。
Since the concept of quantum entanglement was proposed by Schrodinger in 1935, people have paid more and more attention to it.
自1935年薛定谔提出量子纠缠态概念以来,量子纠缠就一直受到人们的关注。
The state of one of these photons was inextricably linked with that of the other through a process known as quantum entanglement.
光子的这一状态通过一种非常复杂的方式联系在一起,也就是所谓的量子纠缠。
Furthermore, we find that the quantum entanglement could make the firms cooperate rather than confront which was performed in classical game.
此外,我们还发现量子纠缠可以使原本在经典博弈中对抗的参与者在量子博弈中表现为合作。
It is significant to study the quantum entanglement quantitatively and qualitatively and its application in the field of quantum information.
因此对量子纠缠的定性和定量的研究以及在量子信息领域可能的应用的研究将是非常有意义的。
In experiments with quantum entanglement, which is an essential basis for quantum computing and cryptography, physicists rely on pairs of photons.
量子缠结是量子计算和加密的基础,而在量子缠结的实验中,物理学家所用的是光子对。
Lately, with the vigorous development of quantum information, quantum entanglement states has been widely applied in each field of quantum information.
近年来,随着量子信息的蓬勃发展,量子纠缠态已被广泛应用到量子信息的各个领域。
It is shown that the quantum entanglement state will stay in the maximally entangled state for a long time when the detuning is equal to rabi frequency.
研究结果表明:在失谐量等于拉比频率时,该体系的纠缠度将长时间处于最大纠缠态。
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。
When vacuum state is injected into one input port while odd coherent state is injected into another, quantum entanglement is generated at the output ports.
若分别以真空态和奇或偶相干态作为分束器的两个输入态,得到的输出态具有量子纠缠性质。
On the other hand, quantum entanglement is a fragile nature, which can be destroyed by the interaction between the real quantum system and its environment.
另一方面,量子纠缠又很脆弱,很容易被量子系统和外部环境之间存在的相互作用所破坏。
Dr Shields's photon detector, however, permits cryptographers to use a phenomenon called quantum entanglement to make a repeater that does not destroy quantum states.
然而,Shields博士的量子探测器使用了一种被称为量子纠缠的现象,可以允许密码专家制造一种不破坏量子态的中继器。
Published speculation has included spectacular progenitor hypotheses that involve a super void, a cosmic texture, or even quantum entanglement with a parallel universe.
有人发表文章提出惊人的原始假设,这些假设包括超级空洞(一种宇宙结构),甚至还有平行宇宙之间的量子纠结。
Quantum entanglement involves the notion that particles can be connected in such a way that changing the state of one instantly affects the other, even when they are miles apart.
量子缠绕技术中的一个重要概念是:粒子能够被串连成一种结构,在这种结构中,一个粒子状态的改变会立即影响另一个粒子,即便这两个粒子之间相隔数公里也不例外。
Be like again, Einstein's most can understand and accept but real "quantum entanglement" phenomenon, in fact it is a kind of "distance" type of material superluminal movement.
再如,爱因斯坦最不能理解和接受但却真实存在的“量子纠缠”现象,其实正是一种“超距”式的物质超光速运动。
The results show that quantum entanglement of all states from the coherent state to number state interacting with a cascade three level atom can be displayed by using the binomial field property.
结果表明,利用二项式光场的特性,可以揭示从相干态到数态之间的所有态光场与三能级原子相互作用时的量子纠缠性质。
Quantum spatial positioning, clock synchronization and fiber optic communications become possible through researching the quantum entanglement characteristic between the simple two particles system.
通过研究最简单的两粒子体系之间的量子纠缠特性,使得量子远程定位、时钟同步和光纤通信成为可能。
In this paper we briefly introduce some basic concepts of quantum computing which include quantum entanglement, quantum bit, quantum register, quantum parallel computing and quantum error correction.
本文简要地介绍量子计算的一些基本概念:量子纠缠、量子位、量子寄存器、量子并行计算和量子纠错。
In this thesis, the degrees of the quantum entanglement in the system of two two-level atoms interacting with a single mode vacuum field are explored, and a series of significant results are obtained.
本文研究了两个二能级原子与单模真空场相互作用系统中的量子纠缠度,得到了一些有意义的结论。
In this thesis, the degrees of the quantum entanglement in the system of two two-level atoms interacting with a single mode vacuum field are explored, and a series of significant results are obtained.
本文研究了两个二能级原子与单模真空场相互作用系统中的量子纠缠度,得到了一些有意义的结论。
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