G. Martin, B. Pereiaslavets, L. Eastman, M.S. Seaford
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引用次数: 0
摘要
使用调制掺杂场效应晶体管(MODFET),具有伪晶抛物线渐变通道和通道两侧的原子平面掺杂伪晶势垒,可以在没有载流子的情况下在通道中实现破纪录的电子片密度(双掺杂双应力MODFET, 3D-SMODFET)。设计具有应力补偿的双掺杂modfet允许所有伪晶层的总厚度扩展到超过任何一个临界层厚度值。利用简单的分析方法,给出了窄全通道AlInAs/InGaAs/AlInAs 3d - smodfet的最佳材料结构。这些InP上的窄通道3d - smodfet在高温下表现出最小的短通道效应(输出电导<15 mS/mm),具有良好的截断特性和RF性能(f/sub MAX/ to / f/sub T/比率为3)。
High temperature operation of narrow channel AlInAs/InGaAs/AlInAs 3D-SMODFETs for power amplifiers
Using a modulation doped field effect transistor (MODFET) with a pseudomorphic parabolically graded channel and atomic planar doped pseudomorphic barriers on both sides of the channel, it is possible to achieve record-breaking electron sheet densities in the channel without having carriers in the barrier (Double-Doped Double-Strained MODFET, 3D-SMODFET). Designing double-doped MODFETs with stress compensation allows the total thickness of all the pseudomorphic layers to be extended beyond any one critical layer thickness value. Using a simple analytical method, an optimum material structure for AlInAs/InGaAs/AlInAs 3D-SMODFETs with narrow full channels is shown. These narrow channel 3D-SMODFETs on InP show minimal short channel effects (output conductance <15 mS/mm) at elevated temperatures with good pinch-off characteristics and RF performance (f/sub MAX/ to f/sub T/ ratio of 3).
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