Dual stress liner for high performance sub-45nm gate length SOI CMOS manufacturing

H.S. Yang; R. Malik; S. Narasimha; Y. Li; R. Divakaruni; P. Agnello; S. Allen; A. Antreasyan; J.C. Arnold; K. Bandy; M. Belyansky; A. Bonnoit; G.B. Bronner; V. Chen; X. Chen; Z. Chen; D. Chidambarrao; A.I. Chou; W. Clark; S.W. Crowder; B. Engel; H. Harifuchi; S. Huang; R. Jagannathan; F.F. Jamin; Y. Kohyama; H. Kuroda; C.W. Lai; H.-K. Lee; W.-H. Lee; E.H. Lim; W.L. Lai; A. Mallikarjunan; K. Matsumoto; A. McKnight; J. Nayak; H.Y. Ng; S. Panda; R. Rengarajan; M. Steigerwalt; S. Subbanna; K. Subramanian; J. Sudijono; G. Sudo; S.-P. Sun; B. Tessier; Y. Toyoshima; P. Tran; R. Wise; R.C. Wong; I.Y. Yang; C. Wann; L. Su; M. Horstmann; Th. Feudel; A. Wei; K. Frohberg; G. Burbach; M. Gerhardt; M. Lenski; R. Stephan; K. Wieczorek; M. Schaller; H. Salz; J. Hohage; H. Ruelke; J. Klais; P. Huebler; S. Luning; R. Van Bentum; G. Grasshoff; C. Schwan; E. Ehrichs; S. Goad; J. Buller; S. Krishnan; D. Greenlaw; M. Raab; N. Kepler

IEDM 2004

Conference paper

01 Dec 2004

Dual stress liner for high performance sub-45nm gate length SOI CMOS manufacturing

Abstract

For the first time, tensile and compressively stressed nitride contact liners have been simultaneously incorporated into a high performance CMOS flow. This dual stress liner (DSL) approach results in NFET/PFET effective drive current enhancement of 15%/32% and saturated drive current enhancement of 11%/20%. Significant hole mobility enhancement of 60% is achieved without using SiGe. Inverter ring oscillator delay is reduced by 24% with DSL. Overall yield for the DSL process is comparable to that of a similar technology without DSL. Single and multi-core SOI microprocessors are being manufactured using the DSL process in multiple, high-volume fabrication facilities. ©2004 IEEE.

Conference paper