Title: Relaxation-free strained SiGe with super anneal for 32nm high performance PMOS and beyond
Authors: Yu, Ming H.
Li, J. H.
Lin, H. H.
Chen, C. H.
Ku, K. C.
Nieh, C. F.
Hisa, H.
Sheu, Y. M.
Tsai, C. W.
Wang, Y. L.
Chu, H. Y.
Cheng, H. C.
Lee, T. L.
Chen, S. C.
Liang, M. S.
電子工程學系及電子研究所
Department of Electronics Engineering and Institute of Electronics
Issue Date: 2006
Abstract: The interaction of epitaxially strained SiGe and super annealing or millisecond anneal in high performance PFET fabrication was, for the first time, systematically investigated. When super annealing was applied, the quality of SiGe/Si interface, affected by subsequent ion implantation and post-SiGe thermal treatment, played an important role in SiGe strain relaxation incurring channel stress loss and defect injection to Si substrate resulting in high junction leakage. Defect injection mechanism was proposed to explain the defect formation in Si substrate. The new processing scheme, which preserved SiGe as relaxation-free and avoided defect injection, was developed and for 32nm technology. The device performance gain with 10% Id,sat increment resulting from fully strained SiGe was achieved.
URI: http://hdl.handle.net/11536/135215
ISBN: 978-1-4244-0438-4
Journal: 2006 INTERNATIONAL ELECTRON DEVICES MEETING, VOLS 1 AND 2
Begin Page: 618
End Page: +
Appears in Collections:Conferences Paper