Challenges and solutions in the process integration of ultra-shallow junctions in advanced CMOS technology

Author

Variam, N. ; Falk, S. ; Mehta, S. ; Miranda, T. ; Lutze, J.

Author_Institution

Varian Semicond. Equip. Assoc. Inc., Gloucester, MA, USA

fYear

2000

fDate

2000

Firstpage

77

Lastpage

80

Abstract

The formation of ultra-shallow junctions with low sheet resistance poses a major challenge in the scaling of advanced CMOS devices. Optimal device characteristics are achieved by a combination of low energy implants with low thermal budget activation. In this paper, the role of various thermal processes such as extension and source/drain anneal and deposition of nitrides and oxides on controlling junction parameters are examined. In addition, the effect of anneal ambient in the presence of an ultra-thin oxide layer is examined. Effect of junction profiles on device performance of a 150 nm CMOS is also reported. Improved transistor performance is obtained by minimizing thermal budget and optimizing the implanted extension dose

Keywords

CMOS integrated circuits; ion implantation; semiconductor doping; advanced CMOS technology; controlling junction parameters; deposition; device performance; extension; implanted extension dose; junction profiles; low sheet resistance; minimizing thermal budget; nitrides; optimal device characteristics; oxides; process integration; scaling; source/drain anneal; transistor performance; ultra-shallow junctions; Annealing; Boron; CMOS process; CMOS technology; Fabrication; Implants; MOS devices; Mass spectroscopy; Oxidation; Silicidation;

fLanguage

English

Publisher

ieee

Conference_Titel

Ion Implantation Technology, 2000. Conference on

Conference_Location

Alpbach

Print_ISBN

0-7803-6462-7

Type

conf

DOI

10.1109/.2000.924094

Filename

924094