Title :
Trimming of hard-masks by gaseous Chemical Oxide Removal (COR) for sub-10 nm gates/fins, for gate length control and for embedded logic
Author :
Natzle, Wesley C. ; Horak, David ; Deshpande, Sadanand ; Yu, Chien-Fan ; Liu, Joyce C. ; Mann, Randy W. ; Doris, Bruce ; Hanafi, Hussein ; Brown, Jeffre ; Sekiguchi, Akihisa ; Tomoyasu, Masayuki ; Yamashita, Asao ; Prager, Daniel ; Funk, Meritt ; Cottrell
Author_Institution :
Microelectron. Div., IBM Semicond. Res. & Dev. Center, Hopewell Junction, NY, USA
Abstract :
A method for formation and control of silicon gates or fins uses trim of a hard mask by a new gaseous oxide etch. The method decouples final feature size from lithography and from the RIE resist trim/oxide mask open processes. Logic blocks with two separately controlled gate lengths and dielectric thicknesses are embedded on chip. COR control has achieved final size sprads of 1 to 2 nm using measurements from either the factory CDSEM or from a scatterometer integrated on the process tool.
Keywords :
elemental semiconductors; lithography; logic gates; masks; resists; scanning electron microscopy; silicon; silicon compounds; sputter etching; 1 to 2 nm; 10 nm; RIE resist oxide mask; RIE resist trim mask; SEM; Si-Si3N4; dielectric thicknesses; embedded logic; gaseous chemical oxide removal control; gaseous oxide etching; hard mask trimming; lithography; reactive ion etching; scatterometry; silicon fins formation; silicon gate length control; silicon gates formation; Chemicals; Dielectric measurements; Etching; Lithography; Logic; Resists; Semiconductor device measurement; Silicon; Size control; Thickness control;
Conference_Titel :
Advanced Semiconductor Manufacturing, 2004. ASMC '04. IEEE Conference and Workshop
Print_ISBN :
0-7803-8312-5
DOI :
10.1109/ASMC.2004.1309536
