量子逻辑门是实现量子信息处理的功能器件。
Quantum logic gate is a functional component which realizes solid state quantum information processing.
该结果对基于几何相位的容错量子信息处理具有非常重要的意义。
It is significant to the quantum information processing based on the geometric phase.
我们的结果揭示了纠缠的深刻性质,也将在量子信息处理中有着重要的作用。
The result reveals the profound nature of the entanglement and should have significant implications for quantum information processing.
然而,系统与环境的相互作用给量子信息处理的具体实现带来了巨大的困难。
The interaction between quantum systems and environment brings great difficulties to the implementation of quantum information processing.
近年来有关连续变量纠缠态的制备及其在量子信息处理中的应用引起了人们广泛的关注。
In recent years, the preparation of continuous variable entanglement has attracted a lot of attention in quantum optics and quantum information process.
尤其是在一定条件下,能利用该系统能制备一类W态,这类态在量子信息处理中有潜在的应用。
Particularly, this system can be used to generate a class of W states, which have a potential application in quantum information processing.
量子点光学微腔器件在低阈值激光器和单光子光源等量子信息处理技术领域有重要的应用前景。
Quantum dot optic microcavity device had potential application in field of quantum information technology using as the low threshold laser and single photon light source etc.
也就是说,消相干和解纠缠在量子信息处理过程中是不可避免的,这将使纯的量子通道退化为混态量子通道。
This will affect quantum information processing, and thus cause the loss of quantum information. Therefore, we need to investigate quantum communication via mixed states.
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。
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.
若是在考虑温度的情况下实现光子晶体中两原子的纠缠,在量子信息处理中会有更实际的应用,这是我们接下来要做的研究工作。
If we consider the temperature when the atoms interact with the defect field mode, it is more meaningful and practical in quantum information process. This is our following work.
因此分析量子信息处理系统在各种干扰下的演化规律,研究干扰对量子计算鲁棒性的影响,将非常有助于设计高可靠性的容错量子计算系统。
Thus exploring the robustness features of quantum information processing system in presence of various imperfections will be very helpful to design fault-tolerant quantum information processor.
基于这一考虑,全世界的科学家都在研究基于量子效应实现通信和信息处理的技术。
With this in mind, scientists all over the world are researching technologies based on quantum effects that can be used to communicate and process information.
这种方法可以使相对论和量子理论相和谐,前者可以解释信息处理过程怎样创造空间——时间,后者可以解释信息处理怎样创造能量和物质。
Such an approach could reconcile relativity and quantum theories, with the former being how information processing creates space-time, and the latter how it creates energy and matter.
在未来世界,量子计算机可能会取代当代的电脑,借助于量子世界中的诸多奇性,未来计算机的容量将急剧膨胀,其信息处理的速度也会突飞猛进。
The computers of tomorrow could be quantum not classical, using the quantum world's strange properties to vastly increase memory and speed up information processing.
这一技术简化了信息处理过程,可用于未来的量子计算机、模拟技术和量子网络中。相关研究发表在2月23日的《自然》杂志上。
By directly linking the motions of two physically separated atoms, the technique has the potential to simplify information processing in future quantum computers and simulations.
本文研制的光子符合仪就是利用现代电路和计算机技术实现的量子通信和信息处理中最常用、最重要的测试仪器。
So, we develop the photon coincidence instrument using by modern circuit and computer, it is very important measure instrument in common use for quantum communication and information processing.
量子神经计算是传统神经计算与量子计算相结合的产物,它已成为新的信息处理技术之一。
Quantum neural networks (QNN) Integrates the characteristics of artificial neural networks by quantum neuron computing, and becomes a promising field in information processing.
在实现信息处理的过程中,量子态叠加原理、量子纠缠和量子退相干等基本原理和基本概念应当充分考虑。
Some fundamental principles, such as the principle of quantum state superposition, quantum entangled state and quantum decoherence etc.
在实现信息处理的过程中,量子态叠加原理、量子纠缠和量子退相干等基本原理和基本概念应当充分考虑。
Some fundamental principles, such as the principle of quantum state superposition, quantum entangled state and quantum decoherence etc.
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