Assessment of minority-alloy component segregation (e.g. Mn, Al) in back end of line copper trench structures using Kelvin probe technique

Author

Nag, J. ; Kohli, Kriti ; Simon, A. ; Krishnan, Sridhar ; Parks, C. ; Ray, Sambaran ; Tijiwa-Birk, Felipe

Author_Institution

SRDC, IBM, Hopewell Junction, NY, USA

fYear

2014

fDate

19-21 May 2014

Firstpage

261

Lastpage

264

Abstract

Alloy seedlayers for Cu BEOL interconnects have become common at technology groundrules of 45 nm and below, due to reliability requirements. The key requirement of the minority alloy component (e.g., Al or Mn, also referred to as the “dopant”) is that it segregates to the Cu / dielectric cap layer interface in order to promote adhesion between the Cu in the line and the dielectric capping layer. The segregation beneath the dielectric cap has a complex dependence on many process parameters and needs to be monitored across the wafer. In this paper, we present a contactless, in-line, fast and reliable Kelvin probe technique for the sub-surface detection of alloy segregation in Cu interconnects for sub-22 nm technologies.

Keywords

aluminium; copper; dielectric materials; integrated circuit interconnections; integrated circuit reliability; isolation technology; manganese; Al; BEOL interconnects; BEOL reliability; Cu; Kelvin probe; Mn; back end of line copper trench structures; dielectric cap layer interface; minority alloy component segregation; size 45 nm; subsurface detection; Annealing; Dielectrics; Kelvin; Manganese; Probes; Reliability; Al; BEOL reliability; Cu interconnects; Kelvin probe; Mn; alloy segregation; sub-surface detection; transition metal;

fLanguage

English

Publisher

ieee

Conference_Titel

Advanced Semiconductor Manufacturing Conference (ASMC), 2014 25th Annual SEMI

Conference_Location

Saratoga Springs, NY

Type

conf

DOI

10.1109/ASMC.2014.6847017

Filename

6847017