In quantum device, general situation semiconductor self-spining device are introduced.
在量子器件方面,主要介绍量子器件和半导体自旋器件的概况。
However, it might be possible with other large but inanimate objects linked to a quantum device.
不过,有可能采用其他大型但无生命物体与量子装置相连接。
Molecular-based magnetic materials can be used as the magnetic quantum device memory or building blocks.
分子基磁性材料可以用作量子设备的磁性记忆或构建模块。
A digital quantum simulator is an envisioned quantum device that can be programmed to efficiently simulate any other local system.
数字化量子模拟器是一种设想的量子装置,能通过编程有效模拟任何其他的局部系统。
By using a quantum device to control a mechanical object, researchers have linked the mind-bending laws of quantum physics to the tangible, everyday world.
研究人员们利用量子装置对机械物体加以控制,从而将量子物理学令人费解的定律与有形的日常世界之间建立起联系。
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 novel device is capable of considerably boosting the rate of quantum communications and constitutes a key component in future quantum logic processes.
这个新设备能够极大地提高量子通信的速率,是未来量子逻辑处理器的关键组成部分。
"[Being able to transfer data packets like this] is a necessary thing to do in order to build a proper quantum computer or a quantum communications device," she said.
“(能够如此传送数据包)是建立一台量子计算机或量子通信设备的必经之路”,她说。
The being with consciousness must have a different role in quantum mechanics than the inanimate measuring device .
在量子力学中有意识的人必定比无生命的测量装置有不同的作用。
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.
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。
The quantum system of the passive hydrogen maser is introduced briefly and a design of the spectrum observing device is expounded.
简单介绍了被动型氢钟的量子系统,阐述了波谱信号观测装置的设计。
The same signals were recorded using the "gold standard" for magnetic measurements, a SQUID (superconducting quantum interference device).
研究者同时利用磁场测量的“金标准”——超导量子干涉器件(SQUID)对心跳信号进行了记录。
The abbreviation SQUID also stands for superconducting quantum interference device.
超导量子干涉器件缩写鱿鱼也代表。
The system may be suitable for use as an analogue of the superconducting quantum interference device (SQUID), able to sense rotation.
该系统可能适合用作超导量子干涉装置(SQUID)的一个类比物,能够探测转动。
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。
More preferably, the device structure contains a memory cell having three quantum Wells that can be arranged and constructed to define two different memory states.
更优选地,该器件结构包含存储单元,该存储单元具有三个量子阱,该三个量子阱被设置和构造成限定两种不同的存储状态。
The effects of device temperature on the laser threshold current, external differential quantum efficiency (DQE), and output wavelength are also investigated.
研究了器件温度对于激光阈值电流、外微分量子效率和输出波长的影响。
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。
Quantum sensor is a kind of physical device which is designed according to quantum mechanics law and quantum effect to implement the transformation of measured quantities of systems.
量子传感器是根据量子力学规律、利用量子效应设计的、用于执行对系统被测量进行变换的物理装置。
The team is now building a prototype device that could be used build the foundations of a quantum Internet.
这支团队正在建造一个原型机,用来构建量子互联网的基础。
The 'nano high-energy quantum' in the 'water activating device with nano high-energy quantum' is one kind of functional material.
本专利产品《纳米高能量子水活化器》中的《纳米高能量子》是一种功能材料。
It is the superconducting quantum interference device as two-level system approximately operating in a particular state.
超导量子比特是工作在特定条件而可以近似看作二能级体系超导量子干涉仪。
Current flows through the device by the process of quantum tunneling: a small number of electrons manage to jump through the barrier even though they are forbidden to be in the insulator.
电子在元件中利用量子穿隧效应流动,少量的电子可穿过绝缘层的障碍到达另一边。
Current flows through the device by the process of quantum tunneling: a small number of electrons manage to jump through the barrier even though they are forbidden to be in the insulator.
电子在元件中利用量子穿隧效应流动,少量的电子可穿过绝缘层的障碍到达另一边。
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