本文主要论述了能带工程在半导体激光器中的应用。
The applications of energy band engineering to semiconductor lasers is mainly described in the paper.
近年来这些成果被应用于半导体器件和电路的研制,形成一门新的能带工程。
The accomplishments have been applied to developing of semiconductor devices and circuits in recent years, and new energy band engineering has formed.
这种差异表明,在器件的材料结构设计上已从掺杂设计步入到了能带工程设计。
It is shown that doping design for the device's material structure has evolved into band engineering design.
在提高聚合物发光二极管的各项性能的进程中,电注入发光聚合物的能带工程将起着积极的作用。
During the improvement of their performance, the energy band engineering of electroluminescent polymers will take positive effect.
本文简要地介绍了电注入发光聚合物的能带的形成、表征以及能带工程在聚合物发光器件中的应用。
In this article, the formation and characterization of the energy band of electroluminescent polymers and the application...
共振隧穿二极管因其特有的负微分电阻特性,成为一种很有前途的基于能带工程的异质结构量子器件。
The resonant tunneling diode (RTD) is one of the most promising band-gap engineered heterostructure devices due to its negative differential resistance.
共振隧穿二极管因其特有的负微分电阻特性,成为一种很有前途的基于能带工程的异质结构量子器件。
The resonant tunneling diode (RTD) is one of the most promising bandgap engineered heterostructure devices due to its negative differential resistance.
共振隧穿二极管因其特有的负微分电阻特性,成为一种很有前途的基于能带工程的异质结构量子器件。
The resonant tunneling diode (RTD) is one of the most promising bandgap engineered heterostructure devices due to its negative differential resistance.
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