Author :
Demuynck, S. ; Tökei, Zs ; Zhao, C. ; De Marneffe, J.F. ; Struyf, H. ; Boullart, W. ; De Beeck, M. Op ; Carbonell, L. ; Heylen, N. ; Vaes, J. ; Beyer, G.P. ; Vanhaelemeersch, S. ; Sadjadi, R. ; Zhu, H. ; Cirigliano, P. ; Kim, J.S. ; Vertommen, J. ; Coeneg
Abstract :
In this paper we demonstrate the feasibility of integrating a technique for shrinking the lithography-defined feature size by using a plasma process prior to etch. The technique is based on a sequential deposition and selective removal of a polymer coating formed on the top and sidewalls of the developed resist. This method can be applied to both contacts and trenches and allows tuning of the shrink amount. Yielding damascene trenches down to 45 nm were obtained, shrunk from a 85 nm print, while functional 100 nm contacts were formed starting from a 150 nm print. In both cases excellent within-wafer non-uniformities were achieved.
Keywords :
coatings; lithography; plasma deposition; polymers; shrinkage; contact integration; feature size shrinking; lithography; patterning shrink technique; plasma deposition process; polymer coating selective removal; sequential deposition; size 100 nm; size 45 nm; Ash; Chemicals; Coatings; Dry etching; Lithography; Plasma applications; Plasma chemistry; Plasma properties; Plasma temperature; Resists;
