Novel interface nitridation process for thin gate oxides

Author

Rahat, Ido ; Shappir, Joseph ; Ben-Atar, Daniel

Author_Institution

Sch. of Appl. Sci. & Technol., Hebrew Univ. of Jerusalem, Israel

Volume

40

Issue

11

fYear

1993

fDate

11/1/1993 12:00:00 AM

Firstpage

2047

Lastpage

2053

Abstract

A thin (100-200-Å) gate dielectric film which exhibits improved properties as compared to control pure thermal oxides is discussed. The film is obtained by thermal nitridation of the silicon wafers in pure ammonia, followed by high temperature oxide (HTO) deposition, and an anneal in oxygen ambient (reoxidation). It was found that these dielectrics exhibit excellent electrical characteristics under Fowler-Nordheim tunneling stress, such as a relatively large charge-to-breakdown considerable reduction in charge trapping, reduction of interface state generation, and a significantly improved resistance to transconductance degradation. The dielectric layer is of potential use for the fabrication of reliable ultrathin gate oxide films for standard CMOS technology and particularly for nonvolatile programmable memories

Keywords

CMOS integrated circuits; annealing; dielectric thin films; electric breakdown of solids; integrated circuit technology; interface electron states; nitridation; oxidation; CMOS technology; Fowler-Nordheim tunneling stress; NH₃; Si; Si-SiO₂-Si₃N₄-SiO₂; anneal; charge trapping; charge-to-breakdown; dielectric film; electrical characteristics; high temperature oxide deposition; interface nitridation process; interface state generation; nonvolatile programmable memories; reoxidation; thermal nitridation; thin gate oxides; transconductance degradation; Annealing; CMOS technology; Dielectric films; Electric variables; Interface states; Semiconductor films; Silicon; Temperature; Thermal stresses; Tunneling;

fLanguage

English

Journal_Title

Electron Devices, IEEE Transactions on

Publisher

ieee

ISSN

0018-9383

Type

jour

DOI

10.1109/16.239747

Filename

239747