From the special structure of MQW, their nonlinear mechanism advantages over that of pure crystals are analyzed.
从其特殊的结构出发,讨论了其非线性机制以及比体单晶材料优越的特点。
This paper presents a new algorithm for fast and accurate analysis of stripe Multiple Quantum Well (MQW) waveguides.
本文提出了一种快速和精确分析多量子阱(MQW)条形光波导的新算法。
A multiple quantum well (MQW) structure for a light emitting diode and a method for fabricating a MQW structure for a light emitting diode are provided.
提供了一种用于发光二极管的多量子阱(MQW)结构以及用于制造用于发光二极管的MQW结构的方法。
The coupling characteristics of tapered and lensed fiber (TLF) and semiconductor MQW planar lightwave circuit (PLC) chip was investigated experimentally.
对锥形透镜光纤(TLF)与半导体多量子阱(MQW)平面光波光路(PLC)芯片的耦合特性进行了实验研究。
The Starkshift of PC peaks relative to ple ones gives a clear indication to the distribution of electricfield in MQW region and the validity of depletion model.
光电流谱峰与激发光谱峰的斯塔克位移提供了多量子阱中电场分布的信息,并证明了耗尽区模型的正确性。
The Starkshift of PC peaks relative to ple ones gives a clear indication to the distribution of electricfield in MQW region and the validity of depletion model.
光电流谱峰与激发光谱峰的斯塔克位移提供了多量子阱中电场分布的信息,并证明了耗尽区模型的正确性。
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