Another set of coupling devices is configured to couple next-nearest neighbor quantum devices.
另一组耦连装置被配置为对次最近相邻的量子装置进行耦连。
The formulation of quantum devices model and its computational simulation have important significance of guidance.
量子器件模型的建立与计算机模拟对于实验有着重大的指导意义。
Such analog processors comprise a plurality of quantum devices, arranged in a lattice, together with a plurality of coupling devices.
此类模拟处理器包括与多个耦连装置一起安排在一个点阵中的多个量子装置。
A set of coupling devices in the plurality of coupling devices is configured to couple nearest-neighbor quantum devices in the lattice.
该多个耦连装置中的一组耦连装置被配置为对该点阵中的最近相邻的量子装置进行耦连。
Such quantum processors further comprise a set of readout devices each configured to measure the information from a corresponding quantum device in the plurality of quantum devices.
此类量子处理器进一步包括一组读出装置,它们每一个被配置为测量来自该多个量子装置中的一个对应的量子装置的信息。
This article synthetically lead in some kinds of transportation-model and the result of their simulations, advancing some ideas of the quantum devices physical model and its computer aided design.
本文综述了量子器件的几种输运模型及其模拟结果,并对量子器件物理模型及其辅助设计提出了设想。
FLATOW: and there are a lot of people who want to isolate atoms, and the idea is to, you know, think about hooking the atoms together to make devices, maybe a quantum computer.
付拉屯:有很多人也想孤立出单个的原子,你知道,他们的想法是,用这些原子搭建某种设备,也许是量子计算机吧。
According to Aspelmeyer, the findings could inform the design of storage devices used in quantum computers.
按照艾斯派梅尔的说法,实验结果可以告知我们量子计算机存储设备的设计方式。
Simian brain tissue glistened slippery-red beneath the plastic, the cortex capped by a matrix of micro-superconducting quantum interference devices.
人猿的脑组织在塑料制品下闪烁着潮红色的光,大脑皮层被一个微超导量子交互装置的基质所包围。
There is currently a major ongoing research effort about Silicon-based quantum dot devices because of their unique properties and compatible with mature Si integrated circuit.
硅基量子点器件由于其独特的性能以及和硅集成电路相容的特点成为研究的重点。
Quantum Wafer Inc. is a semiconductor optoelectronic materials and devices company. It is located in the heart of Zhujiang Delta Industry Area of China.
量晶光电是一家高科技企业,主业为半导体光电材料和器件,位于广东珠江三角洲中心地带。
Quantum dots (QDs), with zero-dimensional electronic properties, have stimulated great interest due to their important roles in fundamental physical research and for developing novel devices.
由于半导体量子点具有零维电子特性,它不仅成为基本物理研究的重要对象,也成为研制新一代量子器件的基础。
This is because the data are being encrypted in a new and probably unbreakable way with one of the first practical devices to be developed for quantum information technology.
这是因为数据已经被一种很可能无法破解的方式加密,对其加密的是世界上首台应用量子信息技术的设备。
Rare earth complex materials have been widely used in organic electroluminescence devices because of their high photoluminescence quantum efficiencies, narrow emission spectra and high color purity.
具有窄带发射的稀土配合物发光材料,因其具有高荧光量子效率,高色纯度等特点,被用于制备有机电致发光器件。
The quantum efficiency of organic light emitting diodes (OLED) is an extraordinary factor of devices luminescence performance.
有机电致发光器件(OLED)的量子效率是衡量器件发光性能的一个非常重要的参数。
Nanometer semiconductor quantum dots have potential application in the novel quantum functional devices because of their unique photoelectric and transport properties.
纳米半导体量子点以其所具有的新颖光电性质与输运特性,正在各类量子功能器件中获得成功应用。
Our results show that the lateral coupling between the quantum dots mainly determine the transport properties of the quantum dot devices under small biases.
实验结果表明:量子点的横向耦合控制了量子点器件在小偏压下的电输运特性。
In recent ten years, the low-dimensional quantum structures, such as quantum Wells quantum wires and quantum dots, had potential technological application in the optical devices.
近十几年来,人们预期低维量子结构,如:量子阱、量子线、量子点,在光学器件上有潜在的应用价值。
The results show that the internal quantum efficiency of such structure devices can be as higher as 88%.
结果表明,这种结构器件的内量子效率可达88%。
This paper gives a quantum mechanical analysis of the interaction between the electromagnetic field and the electron beam of free electron stimulated emission devices or linear electron accelerator.
本文对自由电子受激辐射器件与电子直线加速器中的电子注与电磁场的相互作用进行了量子力学分析,认为电子注的电子结构应由束缚电子对组成。
Some new devices and techniques of the field of nanophotonics are reviewed, and the progresses in quantum computation and near-field optical chemical-vapor preparation are introduced.
在介绍纳米光子学领域出现的一些新器件与新技术的基础上,综述报道了纳米光子学在近场光化学气相制备、与量子计算的联系等方面取得的一些新进展。
Our arm is to explore the physical mechanisms of the effects, and to supply physical models and make theoretical validity in designing novel quantum filtering devices with better properties.
本文利用散射矩阵和传输矩阵等方法研究了半导体异质结量子阱和一维光晶格体系中的量子输运特性,为设计和实现具有优良性能的量子过滤器件提供理论依据。
Such a device structure preferably contains a coupled quantum well devices having two or more quantum Wells that can be coupled together by inter well tunneling effect at degenerate energy levels.
这种器件结构优选地包含耦合量子阱器件,该耦合量子阱器件具有两个或更多个量子阱,该量子阱可以在简并能级通过阱间隧道效应而耦合在一起。
In order to design the quantum point contact (QPC) devices based on the semiconductor heterostructure, electrostatic potential distribution and control methods of the QPC are needed to be considered.
为了设计以半导体异质结构量子点接触(QPC)为基础的器件,需要掌握QPC结构中静电势的分布及其控制方法。
Carbon nanotubes have novel mechanical, electrical properties, and they are typical 1D quantum wire. They are expected to be the fundamental materials for future micro- or nano- electronic devices.
碳纳米管具有独特的力学、电学性能,并且是典型的一维量子线,被认为是构筑未来微纳电子器件的主要材料。
This type of devices are required to have high-speed, high quantum efficiency and ultra-narrow spectral linewidth simultaneously.
这类器件需要同时具备高速、高量子效率、超窄光谱响应线宽的性能。
The operation principles for quantum well devices are described in detail and a few examples of their applications is given.
详细地描述了量子阱器件的工作原理,并介绍了它在几个方面的应用。
The studying direction: low dimensional semiconductor physics and device physics, predictive properties of optoelectronics devices and the solid state quantum information.
主要研究方向包括:低维半导体物理及器件、光电子器件性能预测、固态量子信息。
The studying direction: low dimensional semiconductor physics and device physics, predictive properties of optoelectronics devices and the solid state quantum information.
主要研究方向包括:低维半导体物理及器件、光电子器件性能预测、固态量子信息。
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