Silicon semiconductor devices with &dgr;-doped layers

Assignee

• Agere Systems Guardian Corporation · US

Inventors

• Paul H. Citrin · Westfield, US
• Hans-Joachim L. Gossmann · Summit, US
• David Müller · Mannheim, DE

Key dates

Classification

• Technology area (CPC H)Electricity
• CPC primaryH10D62/605
• WIPO fieldSemiconductors
• WIPO sectorElectrical engineering

Abstract

We have discovered that, contrary to conventional wisdom about forming DP defects, electrical saturation in highly doped 2D layers of Si does not occur. In accordance with one aspect of our invention, free-carrier concentrations in excess of about 7×1020 cm−3 can be attained in single crystal Si layers &dgr;-doped with a Group V element. In one embodiment, free-carrier concentrations in excess of about 2×1021 cm−3 are realized in single crystal Si that is &dgr;-doped with Sb. In another embodiment, the &dgr;-doped layer is formed as an integral part of an FET. In accordance with another aspect of our invention, an integrated circuit is fabricated by the steps of providing a single crystal silicon body and forming a doped layer in the body, characterized in that the processing steps form neither a significant amount of electrically inactive precipitates nor a significant number of deactivating dopant centers containing vacancies, and the layer is fabricated as a &dgr;-doped layer that is doped with a Group V element, so that the free-carrier density in the layer is in excess of about 7×1020 cm−3, preferably in excess of about 2×1021 cm&#8722…