作者
Anshul Gupta,Hans Mertens,Z. Tao,Steven Demuynck,Jürgen Bömmels,Goutham Arutchelvan,Katia Devriendt,O. Varela Pedreira,Romain Ritzenthaler,S. Wang,D. Radisic,K. Kenis,Lieve Teugels,Farid Sebaai,C. Lorant,N. Jourdan,Boon Teik Chan,Houman Zahedmanesh,Sujith Subramanian,F. Schleicher,T. Hopf,Antony Premkumar Peter,Nouredine Rassoul,Haroen Debruyn,I. Demonie,Yong Kong Siew,Thomas Chiarella,B. Briggs,D. Zhou,Erik Rosseel,A. De Keersgieter,E. Capogreco,E. Dentoni Litta,Guillaume Boccardi,Sylvain Baudot,G. Mannaert,N. Bontemps,A. Sepúlveda,Sofie Mertens,Min-Soo Kim,E. Dupuy,Kevin Vandersmissen,S. Paolillo,D. Yakimets,Bilal Chehab,Paola Favia,C. Drijbooms,J. Cousserier,Manoj Jaysankar,Frederic Lazzarino,P. Morin,E. Sanchez,Jerome Mitard,Christopher J. Wilson,Frank Holsteyns,Zsolt Tokei,Naoto Horiguchi
摘要
Buried power rail (BPR) is a key scaling booster for CMOS extension beyond the 5 nm node. This paper demonstrates, for the first time, the integration of tungsten (W) BPR lines with Si finFETs. The characteristics of CMOS in close proximity to floating BPR are found to be similar to the characteristics of CMOS without BPR. Moreover, W-BPR interface with Ru via contact can withstand more than 320 h of electromigration (EM) stress at 4 MA/cm 2 and 330°C, making Ru a candidate for via metallization to achieve low resistance contact strategy to BPR.
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