Fundamental material analysis and SIMOX improvement as a function of independent implant parameter control

Author

Allen, L.P. ; Farley, M. ; Datta, R. ; Jones, K.S. ; Krishnamoorthy, V. ; Krska, J. Yap ; Yoon, J.U. ; Chung, J.E.

Author_Institution

Ibis Technol. Corp., Danvers, MA, USA

fYear

1996

fDate

30 Sep-3 Oct 1996

Firstpage

32

Lastpage

33

Abstract

Until recently, implanted material fabrication incorporated inherently coupled parameters of the selected species implant. With the advent of decoupled implant parameters, first and second order material quality influences can be determined and applied towards material improvements. This paper reports on the fundamental material analysis and SIMOX quality as a function of independently controlled wafer temperature, energy, and beam current. Their influence on the microstructure and electrical behavior of single implant SIMOX material has been investigated for a resulting improvement in the silicon/buried oxide interface and an understanding of dislocation reduction and buried oxide improvement mechanisms

Keywords

SIMOX; dislocation density; ion implantation; tunnelling; SIMOX improvement; beam current; buried oxide; dislocation reduction; electrical behavior; independent implant parameter control; material analysis; material quality influences; single implant SIMOX; wafer temperature; Atomic force microscopy; Current density; Current measurement; Density measurement; Fabrication; Implants; Rough surfaces; Silicon; Surface roughness; Temperature;

fLanguage

English

Publisher

ieee

Conference_Titel

SOI Conference, 1996. Proceedings., 1996 IEEE International

Conference_Location

Sanibel Island, FL

ISSN

1078-621X

Print_ISBN

0-7803-3315-2

Type

conf

DOI

10.1109/SOI.1996.552479

Filename

552479