应变SiGe p 型金属氧化物半导体场效应管栅电容特性研究

由于台阶的出现, 应变SiGe p型金属氧化物半导体场效应管 (pMOSFET) 的栅电容特性与体Si器件的相比呈现出很大的不同, 且受沟道掺杂的影响严重. 本文在研究应变SiGe pMOSFET器件的工作机理及其栅电容C-V 特性中台阶形成机理的基础上, 通过求解器件不同工作状态下的电荷分布, 建立了应变SiGe pMOSFET栅电容模型, 探讨了沟道掺杂浓度对台阶的影响. 与实验数据的对比结果表明, 所建立模型能准确反映应变SiGe pMOSFET器件的栅电容特性, 验证了模型的正确性. 该理论为Si基应变金属氧化物半导体(MOS)器件的设计制造提供了重要的指导作用, 并已成功应用于Si基应变器件模型参数提取软件中, 为Si基应变MOS的仿真奠定了理论基础. 关键词： 应变SiGe pMOSFET 栅电容特性 台阶效应 沟道掺杂     

Effect of substrate doping on the flatband and threshold voltages of strained-Si pMOSFET

The effect of substrate doping on the flatband and threshold voltages of strained-Si/SiGe p metal-oxide semiconductor field-effect transistor (pMOSFET) has been studied. By physically deriving the models of the flatband and threshold voltages, which have been validated by numerical simulation and experimental data, the shift in the plateau from the inversion region to the accumulation region as the substrate doping increases has been explained. The proposed model can provide valuable reference to the designers of strained-Si devices and has been implemented in software for extracting the parameters of strained-Si MOSFET.     

The effect of substrate doping on the flatband and threshold voltages of a strained-Si pMOSFET

The effect of substrate doping on the flatband and threshold voltages of a strained-Si/SiGe p metal-oxide semiconductor field-effect transistor(pMOSFET) has been studied.By physically deriving the models of the flatband and threshold voltages,which have been validated by numerical simulation and experimental data,the shift in the plateau from the inversion region to the accumulation region as the substrate doping increases has been explained.The proposed model can provide a valuable reference to the designers of strained-Si devices and has been implemented in software for extracting the parameters of a strained-Si MOSFET.     

pMOS器件直流应力负偏置温度不稳定性效应随器件基本参数变化的分析

应用负偏置温度不稳定性(negative bias temperature instability,NBTI),退化氢分子的漂移扩散模型,与器件二维数值模拟软件结合在一起进行计算,并利用已有的实验数据和基本器件物理和规律,分析直流应力NBTI效应随器件沟道长度、栅氧层厚度和掺杂浓度等基本参数的变化规律,是研究NBTI可靠性问题发生和发展机理变化的一种有效方法.分析结果显示,NBTI效应不受器件沟道长度变化的影响,而主要受到栅氧化层厚度变化的影响;栅氧化层厚度的减薄和栅氧化层电场增强的影响是一致的,决定了器件退化按指数规律变化;当沟道掺杂浓度提高,NBTI效应将减弱,这是因为器件沟道表面空穴浓度降低引起的;然而当掺杂浓度提高到器件的源漏泄漏电流很小时(小泄露电流器件),NBTI效应有明显的增强.这些结论对认识NBTI效应的发展规律以及对高性能器件的设计具有重要的指导意义.