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。
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.
这种硅晶光学集成电路能够代替计算机关键模块之间,比如处理器和内存之间,的电子连接器。
The silicon photonic chips could replace the electronic connections between a computer's key components, such as its processors and memory.
英特尔系统的这些组件,包括激光器,都是使用和量产计算机集成电路同样的硅晶刻方式生产。
The components of the Intel system, including the lasers, are made with the same silicon-sculpting methods used to construct computer chips in vast quantities.
上周,Paniccia的团队发布了第一个完整地集成在硅晶集成电路中的光子通讯系统。
Last week, Paniccia's team demonstrated the first complete photonic communications system made from components fully integrated into silicon chips.
硅元件和集成电路技术是相容的。
Silicon devices are compatible with integrated-circuit technology.
但是就当工程师们找到如何制作集成电路并进行大规模生产时,硅因为更容易使用而取代了锗。
But as engineers worked out how to make integrated circuits and manufacture them on a large scale, germanium was set aside for silicon because it's easier to work with.
电子工业用水:集成电路、硅晶片、显示管、电极管、电路管等电子元件冲洗水。
Water for electronic industry use: the wash water of electronic components such as: integrate circuit silicon wafer display tube electrode tube and circuitry tube etc.
纳米硅薄膜具有独特的结构和许多优异的光电性能,可望应用于新型光电器件、大规模集成电路等领域。
Nanocrystalline silicon films have special structure and many excellent optoelectronic properties, and are supposed to be applied in optoelectronic devices and large scale integrated circuits.
而分子电子学有望作为一种解决的方案,替代硅电子学来构建更小的分子集成电路。
And molecular electronics is considered as a promising solution to replace silicon base electronics to construct smaller molecular integrated circuits.
一件是集成电路,上面的每一个硅块都蚀刻着数以十万计的元件。
One is the integrated circuit the device with hundreds of thousands of components etched on a single "chip" of silicon.
电子工业用水:集成电路、硅晶片、显示管、电极管、电路管等电子元件冲洗水。
Water for electronic industry use: the wash water of electronic components, such as: integrate circuit, silicon wafer, display tube, electrode tube, and circuitry tube, etc.
为形成了集成电路制造中使用的硅氧化层的方法提供。
A method for forming a silicon oxide layer for use in integrated circuit fabrication is provided.
该模型可望用于硅基射频集成电路中电感的优化设计和进一步的理论探讨。
Hopefully, it can be applied to further theory research and optimum design of RFIC spiral inductors on si.
这三个部分均采用可控硅进行控制,可控硅的触发采用KC05集成电路移相触发。
These three parts use the silicon-controlled rectifier to carry on the control, the trigger of silicon-controlled rectifier adopt phase-shifting trigger of KC05 integrated circuit.
这些工艺的标准性使得我们可以利用单独的硅制造厂生产集成电路。
The standard nature of these processes permits us to engage independent silicon foundries to fabricate our integrated circuits.
同时,在锂离子电池中,硅的质量不需要像太阳能电池或集成电路中那么高,这就意味着价格较低。
Plus, the silicon used in the battery space doesn't need to be the same quality as what's used in solar cells and integrated circuits, which means it's cheaper.
可以预测,目前以硅为基础的集成电路将要达到它的物理极限。
As predicted, the current silicon-based computer circuits are reaching their physical limits.
这种新型的硅基发光管结构在下一代集成电路中作为芯片之间或芯片内部的光互连具有非常广阔的应用前景。
The new type silicon-based luminous tube structure has a widely application prospect as light connection between chips or chips inner in next generation integrated circuit.
集成电路和各种半导体器件制造中所用的材料,目前主要是硅、锗和砷化镓等单晶体,其中又以硅为最多。
Silicon, germanium and gallium arsenide are popular materials used in ICs and semi-conduct devices, while silicon is the most popular one.
硅cmos工艺由于其高性能,高集成度,低功耗以及低成本等优点,已经在数字电路,混合信号电路,以及射频集成电路中被广泛应用。
CMOS technology on Silicon is widely used in digital circuit, mix-signal circuit, and rf circuits because of it's obvious advantages like high performance, high integration, low power, and low cost.
硅片是一块很小的硅,内含集成电路,它是计算机或者其他电子设备的一部分。
A silicon chip is a very small piece of silicon with electronic circuits on it which is part of a computer or other piece of machinery.
本文围绕射频集成电路中应用的无源硅基片上螺旋电感和有源器件砷化镓高电子迁移率晶体管进行了相关的研究,得到了一些新的结果和新的建模方法。
This paper focuses on the modeling of the passive silicon-chip spiral inductors and active GaAs HEMT, and obtains some new results and new modeling method.
本文围绕射频集成电路中应用的无源硅基片上螺旋电感和有源器件砷化镓高电子迁移率晶体管进行了相关的研究,得到了一些新的结果和新的建模方法。
This paper focuses on the modeling of the passive silicon-chip spiral inductors and active GaAs HEMT, and obtains some new results and new modeling method.
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