潍坊学院山东省多光子纠缠与操纵重点实验室;
Shandong Provincial Key Laboratory of Multi-photon Entanglement and Manipulation;
这些玻色子可能推动光子纠缠对爆炸的强度,虽然使爆炸足够大仍然需要时日。
Some of these would boost the size of the photon-pair bump, though making it big enough still seems to be a stretch.
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。
The making and manipulation of entangled atom-photon pairs are useful for, e. g., high-precision interferometry and quantum information science.
本论文主要内容是对光子纠缠源的产生,操纵以及其在量子信息上的应用进行的实验研究。
The present dissertation is mainly about experimental generation, manipulation of multi-photon entanglement and its applications in quantum information.
研究人员发明了一种新型“光子分子”系统,其中半导体量子点在每个激励脉冲都会发出一对纠缠光子。
The researchers have invented a novel photonic molecule system in which a semiconductor quantum dot emits a pair of entangled photons per excitation pulse.
研究人员发明了一种新型“光子分子”系统,其中半导体量子点在每个激励脉冲都会发出一对纠缠光子。
The researchers have invented a novel "photonic molecule" system in which a semiconductor quantum dot emits a pair of entangled photons per excitation pulse.
他们还在波导中嵌入了量子点(一种能释放单光子的微小半导体)作为代理来使原子与光子产生纠缠。
They also embedded quantum dots, tiny semiconductors that can emit a single photon at a time, in the waveguide as a proxy for atoms that could become entangled with the photons.
量子计算的一种实现方法依赖于相互纠缠的光子和原子,这是一种联系非常紧密的量子态,即使两者间隔很远也能相互影响。
One approach to quantum computing relies on entangling photons and atoms, or binding their quantum states so tightly that they can influence each other even across great distances.
一旦发生纠缠,光子可以将储存在原子量子态中的任何信息传递到计算机的其他位置。
Once entangled, a photon can carry any information stored in the atom's quantum state to other parts of the computer.
根据这一模型,当一个光子撞击罗盘时,处于纠缠态中的电子分散到分子的不同部位。
According to this model, when a photon hits the compass, entangled electrons are scattered to different parts of the molecule.
此外,LPN的科学家们还表明,这种“光子分子”概念的应用能够改善纠缠光子对的纠缠质量。
Moreover, the LPN scientists have also shown that the use of this photonic molecule concept allows the quality of the entanglement of the emitted photon pairs to be improved.
此外,LPN的科学家们还表明,这种“光子分子”概念的应用能够改善纠缠光子对的纠缠质量。
Moreover, the LPN scientists have also shown that the use of this "photonic molecule" concept allows the quality of the entanglement of the emitted photon pairs to be improved.
来自CNRS(法国科学研究中心)光子与纳米结构实验室的团队研究出比现有纠缠光子源亮20倍的新型超亮源。
A team from the Laboratoire DE Photonique et DE Nano-structures (LPN) of CNRS has developed a light source of entangled photons twenty times brighter than all existing systems.
此装置可以让人们有可能制造频率接近1千兆赫(10亿赫兹)的纠缠光子对电致发光二极管。
This device could make it possible to manufacture electroluminescent diodes of entangled photon pairs, with rates close to one gigahertz (in other words around on billion Hertz).
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。
The state of one of these photons was inextricably linked with that of the other through a process known as quantum entanglement.
该方案的优点是可产生短波长的纠缠光子对。
The advantage of this method is that entangled photons of short wavelength may be produced.
结果表明,双模纠缠相干光场的纠缠程度对光子统计性质的影响不大;
The results indicate that the influence of the degree of entanglement of the two-mode entangled coherent state on the statistic properties of photon is small.
量子通信卫星用的则是一种结晶体,这种晶体会产生一对相互纠缠的光子。即便将其中一个传输到很远之外,它们的属性依然会纠缠在一起。
But a quantum communication satellite USES a crystal that produces a pair of entangled photons whose properties remain entwined even as one is transmitted over a large distance.
研究了一对纠缠的二能级原子与单模相干态光场的相互作用,得出平均光子数随时间的演化规律。
The mean photon number evolution of entangled atoms interacting with coherent state light-filed is given.
以此为基础,可以利用单光子作为外触发实现对与其纠缠的其它光子的序列控制,为量子通讯网络建立可靠的量子光源。
Based on it, we can use one of the down converted photons as a trigger to control the other photons in sequence for the application of quantum network.
利用卫星来分发单光子(或纠缠光子对)的方法为远程量子通信网络提供了一种独特的解决方案。
Using satellites to deliver single photon or entangled photon pairs is a unique solution to realize long-distance quantum communications networks.
分析原子的纠缠度对约化后光场性质的影响,结果表明纠缠度强烈影响光场的平均光子数分布和二阶量子相干性。
It is proved that the average photon Numbers and the second-order quantum coherence are dramatically influenced by the entangled degree of the atoms.
使用光学分束器和单光子源,利用单光子态和真空态制备出了纠缠单光子态。
A method of generating the single-photon entangled states of a single photon state and a vacuum state through utilizing optical beam-splitter and single-photon source is described.
纠缠光子源对于量子密钥分发系统至关重要。
Entangled photon pairs are the critical resources in quantum key distribution (QKD) system.
纠缠光子源对于量子密钥分发系统至关重要。
Entangled photon pairs are the critical resources in quantum key distribution (QKD) system.
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