The patent badge is an abbreviated version of the USPTO patent document. The patent badge does contain a link to the full patent document.
The patent badge is an abbreviated version of the USPTO patent document. The patent badge covers the following: Patent number, Date patent was issued, Date patent was filed, Title of the patent, Applicant, Inventor, Assignee, Attorney firm, Primary examiner, Assistant examiner, CPCs, and Abstract. The patent badge does contain a link to the full patent document (in Adobe Acrobat format, aka pdf). To download or print any patent click here.
Patent No.:
Date of Patent:
Dec. 03, 2013
Filed:
Apr. 26, 2012
Brian J. Greene, Wappingers Falls, NY (US);
William K. Henson, Beacon, NY (US);
Judson R. Holt, Wappingers Falls, NY (US);
Michael D. Steigerwalt, Newburgh, NY (US);
Kuldeep Amarnath, Beacon, NY (US);
Rohit Pal, Plainsboro, NJ (US);
Johan W. Weijtmans, Hopewell Junction, NY (US);
Brian J. Greene, Wappingers Falls, NY (US);
William K. Henson, Beacon, NY (US);
Judson R. Holt, Wappingers Falls, NY (US);
Michael D. Steigerwalt, Newburgh, NY (US);
Kuldeep Amarnath, Beacon, NY (US);
Rohit Pal, Plainsboro, NJ (US);
Johan W. Weijtmans, Hopewell Junction, NY (US);
International Business Machines Corporation, Armonk, NY (US);
Globalfoundries, Inc., Grand Cayman, KY;
Abstract
A low energy surface is formed by a high temperature anneal of the surfaces of trenches on each side of a gate stack. The material of the semiconductor layer reflows during the high temperature anneal such that the low energy surface is a crystallographic surface that is at a non-orthogonal angle with the surface normal of the semiconductor layer. A lattice mismatched semiconductor material is selectively grown on the semiconductor layer to fill the trenches, thereby forming embedded lattice mismatched semiconductor material portions in source and drain regions of a transistor. The embedded lattice mismatched semiconductor material portions can be in-situ doped without increasing punch-through. Alternately, a combination of intrinsic selective epitaxy and ion implantation can be employed to form deep source and drain regions.