General review of issues and perspectives for advanced copper interconnections using air gap as ultra-low K material

Author

Gosset, L.G. ; Arnal, V. ; Prindle, C. ; Hoofman, R. ; Verheijden, G. ; Daamen, R. ; Broussous, L. ; Fusalba, F. ; Assous, M. ; Chatterjee, R. ; Torres, J. ; Gravesteijn, D. ; Yu, K.C.

Author_Institution

R&D, Philips Semicond. Crolles, France

fYear

2003

fDate

2-4 June 2003

Firstpage

65

Lastpage

67

Abstract

The present paper deals with the different techniques investigated in the whole microelectronics community to integrate air cavities, usually known as air gaps, in-between copper lines for advanced interconnects. The different integration processes were split into two categories, i.e. (i) using a non-conformal CVD deposition inside patterned trenches and (ii) by removing a sacrificial material using a specific technological operation. Advantages and drawbacks of the different approaches will be discussed, including integration issues, manufacturability, and electrical performances. The aim of the paper is to sensitize the BEOL community on these specific approaches that now appear attractive considering the electrical performances required for 45 nm and below technological nodes.

Keywords

ULSI; air gaps; chemical vapour deposition; copper; dielectric materials; integrated circuit interconnections; permittivity; silicon compounds; BEOL; Cu-SiO₂; Cu-SiOC; air cavities; air gap; copper interconnections; electrical performances; integration processes; microelectronics community; nonconformal CVD deposition; ultra-low K material; Air gaps; CMOS technology; Copper; Crosstalk; Dielectric materials; Etching; Integrated circuit interconnections; Nanoporous materials; Semiconductor materials; Ultra large scale integration;

fLanguage

English

Publisher

ieee

Conference_Titel

Interconnect Technology Conference, 2003. Proceedings of the IEEE 2003 International

Print_ISBN

0-7803-7797-4

Type

conf

DOI

10.1109/IITC.2003.1219714

Filename

1219714