Author :
Sanuki, T. ; Iwamoto, T. ; Ota, K. ; Komoda, T. ; Yamazaki, H. ; Eiho, A. ; Miyagi, K. ; Nakayama, K. ; Fuji, O. ; Togo, M. ; Ohno, K. ; Yoshimura, H. ; Yoshida, K. ; Ito, T. ; Mineji, A. ; Yoshino, K. ; Itani, T. ; Matsuo, K. ; Sato, T. ; Mori, S. ; Naka
Abstract :
This paper describes the fabrication and performance of CMOS transistors featuring flash lamp annealing (FLA) for 45 nm node. We show, for the first time, applying FLA prior to spike RTA as S/D annealing is effective to enhance the channel stress in PFET with epitaxially grown SiGe (eSiGe) S/D. In NFET, FLA recovers the damaged layer in S/D extension caused by implantation and suppresses the transient enhanced diffusion (TED). These improvements result in 11% and 8% higher saturation drive current, and IDSAT=750muA/mum and 1160muA/mum for IOFF=100 nAmum at Vdd=lV in PFET and NFET, respectively. We also report the pattern density dependence of performance gain from FLA technique.
Keywords :
Ge-Si alloys; MOSFET; ion implantation; nanoelectronics; rapid thermal annealing; surface diffusion; CMOS transistors; SiGe; channel stress; flash lamp annealing; ion implantation; pattern density; performance gain; size 45 nm; transient enhanced diffusion; Annealing; CMOS logic circuits; CMOS technology; Capacitive sensors; Germanium silicon alloys; Indium tin oxide; Lamps; Performance gain; Silicon germanium; Stress;
