Methods of fabricating semiconductor devices having strained dual channel layers

Assignee

• AMBERWAVE SYSTEMS CORPORATION · US

Inventors

• Matthew T. Currie · Brookline, US
• Anthony J. Lochtefeld · Ipswich, US
• Christopher Leitz · Nashua, US
• Eugene A. Fitzgerald · Windham, US

Key dates

Classification

• Technology area (CPC Y)Emerging Cross-Sectional Technologies
• CPC primaryY10S438/938
• WIPO fieldSemiconductors
• WIPO sectorElectrical engineering

Abstract

A semiconductor structure includes a strain-inducing substrate layer having a germanium concentration of at least 10 atomic %. The semiconductor structure also includes a compressively strained layer on the strain-inducing substrate layer. The compressively strained layer has a germanium concentration at least approximately 30 percentage points greater than the germanium concentration of the strain-inducing substrate layer, and has a thickness less than its critical thickness. The semiconductor structure also includes a tensilely strained layer on the compressively strained layer. The tensilely strained layer may be formed from silicon having a thickness less than its critical thickness. A method for fabricating a semiconductor structure includes providing a substrate, providing a compressively strained semiconductor on the substrate, depositing a tensilely strained semiconductor adjacent the substrate until a thickness of a first region of the tensilely strained semiconductor is greater than a thickness of a second region of the tensilely strained semiconductor, forming a n-channel device on the first region, and forming a p-channel device on the second region.