Title :
Optimization of pitch-split double patterning phoresist for applications at the 16nm node
Author :
Holmes, Steven J. ; Tang, Cherry ; Burns, Sean ; Yin, Yunpeng ; Chen, Rex ; Koay, Chiew-seng ; Kini, Sumanth ; Tomizawa, Hideyuki ; Chen, Shyng-Tsong ; Fender, Nicolette ; Osborn, Brian ; Singh, Lovejeet ; Petrillo, Karen ; Landie, Guillaume ; Halle, Scot
Author_Institution :
IBM Syst. &Technol. Group at Albany Nanotech, Albany, NY, USA
Abstract :
Pitch-split resist materials have been developed for the fabrication of sub-74 nm pitch semiconductor devices. A thermal cure method is used to enable patterning of a second layer of resist over the initially formed layer. Process window, critical dimension uniformity, defectivity and integration with fabricator applications have been explored. A tone inversion process has been developed to enable the application of pitch split to dark field applications in addition to standard bright field applications.
Keywords :
nanopatterning; photoresists; dark field applications; pitch semiconductor devices; pitch-split double patterning photoresist; pitch-split resist materials; size 16 nm; size 74 nm; thermal cure method; tone inversion process; Frequency modulation; High definition video; Lithography; Optimization; Resists; Wiring; 16 nm node lithography; double patterning; pitch-split; thermal cure; tone inversion;
Conference_Titel :
Advanced Semiconductor Manufacturing Conference (ASMC), 2011 22nd Annual IEEE/SEMI
Conference_Location :
Saratoga Springs, NY
Print_ISBN :
978-1-61284-408-4
Electronic_ISBN :
1078-8743
DOI :
10.1109/ASMC.2011.5898203
