跨导
材料科学
绝缘体上的硅
光电子学
薄脆饼
外延
电气工程
电子工程
图层(电子)
纳米技术
晶体管
硅
工程类
电压
作者
P.A. Clifton,Andreas Goebel,Robert Mulfinger,Amy Child,S. Straub,Ryan Sporer,Rick Carter,J. Kluth,J. Schaeffer,Bich‐Yen Nguyen,G. Chabanne,Nicolas Daval,W. Schwarzenbach,Manish Hemkar,Schubert Chu,S. Moffatt
标识
DOI:10.1016/j.sse.2019.107631
摘要
We report for the first time the implementation of SiGe buried stressors in the context of research and development of an advanced foundry FDSOI process and the observation of improved transconductance and current drive performance of n-channel FDSOI MOSFETs. Epitaxial SiGe stressors grown by CVD at Applied Materials were incorporated under the buried oxide of 300 mm FDSOI wafers by Soitec using lower temperature SOI bonding, splitting and thinning processes and the wafers were subsequently processed through an FDSOI development line at GLOBALFOUNDRIES. The use of FDSOI with buried stressor under the BOX eliminates the risk of extended defects in the epitaxial SiGe layer penetrating up into the SOI channel and also provides an opportunity to obtain a high level of strain in any semiconductor on insulator. A 70 nm thick SiGe buried stressor with 20% Ge is shown to provide a 10% improvement in Idsat at a fixed Ioff for n-FETs with 20 nm gate length and transconductance, gm is correspondingly improved by 15%.
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