FinFET晶体管和新兴NC-FinFET的可变性效应

Aniket Gupta, Nitanshu Chauhan, Om. Prakash, H. Amrouch
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引用次数: 4

摘要

本研究研究了14nm FinFET晶体管与其对应的负电容FinFET晶体管相比,不同可变性源的影响。我们专注于以金属-铁电-绝缘体-半导体(MFIS)结构构建的nc - finfet,不像现有的技术状态,它在其可变性分析中采用金属-铁电-金属-绝缘体-半导体(MFMIS)结构。我们的研究证实了现有的结论,即nc - finfet具有更高的抗变异免疫力,即使在MFIS结构中仍然成立。我们研究了(1)随机掺杂波动,(2)功函数变化,(3)HfO2介电表面粗糙度,(4)界面层表面粗糙度和(5)铁电变化分别和共同对nc - nfinfet和nc - pfinfet的阈值电压,亚阈值摆幅,on电流和OFF电流的影响,并与它们对应的(基线)FinFET器件进行比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Variability Effects in FinFET Transistors and Emerging NC-FinFET
This work investigates, the impact of different variability sources 14nm FinFET transistors compared to their counterpart Negative Capacitance FinFETs transistors. We focus on NC-FinFETs that are constructed in a Metal–Ferroelectric–Insulator–Semiconductor (MFIS) configuration, unlike existing state of the art, which employs Metal–Ferroelectric–Metal-Insulator–Semiconductor (MFMIS) structure in its variability analysis. Our investigation confirms that the existing conclusion, in which NC-FinFETs exhibit a higher immunity against variation, still holds even in MFIS structure. We study the impact that each of (1) random dopant fluctuation, (2) work-function variation, (3) HfO2 dielectric surface roughness, (4) interfacial layer surface roughness, and (5) ferroelectric variation has individually and jointly on the threshold voltage, sub-threshold swing, ON current and OFF current of NC-nFinFETs and NC-pFinFETs in comparison to their counterpart (baseline) FinFET devices.
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