干湿混合蚀刻中的SiGe HBT装置

D. Liu, Jun Xu, Shiliu Xu, Y. Hao, P. Qian, Zhihong Liu, G. Hu, Zhengfan Zhang, Jing Zhang, Rongkan Liu, Luncai Liu, Rongqiang Li, Kaiquan He, Yukui Liu, Guangbing Chen, U. Koenig, H. Kibbel, A. Gruhle, U. Seiler, Kaicheng Li
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引用次数: 5

摘要

本文采用干/湿刻蚀法,用氢氧化钾溶液和六氟化硫(SF6)刻蚀Si和SiGe材料,制备了自对准SiGe/Si HBT。在台面SiGe HBT生产中,控制超薄Si和SiGe薄膜的蚀刻是关键技术。当对发射极区N+/N硅进行刻蚀时,刻蚀时间的长短至关重要。如果蚀刻时间过长,SiGe层容易被蚀刻,导致没有HBT可用;如果蚀刻时间太短,N+/N Si留在基极接触处,使发射极和基极短路。干式蚀刻虽然横向蚀刻面积小,但不利于自对准工艺的实现,也不利于良率和fmax的提高。本文根据硅和锗的化学性质,将干法和湿法蚀刻相结合,进行硅和硅锗的蚀刻。首先,利用KOH溶液对发射极外的N+/N Si进行有意的横向蚀刻。然后用SF6蚀刻SiGe。由此,研制出了具有发射极与基极自对准特性的SiGe HBT。测量结果为:截止频率fT=103.3GHz,最大振荡频率fmax=124.2GHz
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SiGe HBT Device in Mixed Dry Wet Etching
In this paper, a self-aligned SiGe/Si HBT was fabricated based on dry/wet etching, in which Si and SiGe materials were etched by KOH (potassium hydroxide) solution and SF6 (sulfur hexafluoride). In the terms of mesa SiGe HBT production, it is a key technology to control the etch of ultra-thin Si and SiGe film. When N+/N silicon in emitter region is etched, the length of etch time is critical. If etch time is too long, SiGe layer is apt to be etched, so that no HBT is available; if etch time is too short, N+/N Si remains on base contact, so that emitter and base are shorted. Despite a small lateral etch, dry etching doesn't benefit the realization of self-alignment process, nor benefit improvement of yield and fmax. In this paper, based on the chemical properties of silicon and germanium, dry and wet etches were properly combined to etch silicon and silicon germanium. First, N+/N Si outside emitter was etched with intentional lateral etch using KOH solution. Then, SiGe was etched by SF6. As a result, SiGe HBT with self-alignment of emitter to base has been developed. The measured results are: cutoff frequency fT=103.3GHz, maximum oscillation frequency fmax=124.2GHz
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