Title :
Enabling capability of multi-patterning towards 10nm and beyond
Author :
Yaegashi, Hidetami ; Oyama, Kenichi ; Hara, Arisa ; Natori, Sakurako ; Yamauchi, Shohei ; Yamato, Masatoshi ; Okabe, Noriaki ; Koike, Kyohei
Author_Institution :
Adv. Patterning Gr. Tokyo Electron Ltd., Tokyo, Japan
Abstract :
Scaling in the manufacture of semiconductor devices has come to be supported by advances in photolithography technology. Looking to the future, we can expect even more advances in photolithography, but at present, multi-patterning using 193nm immersion lithography is finding widespread use as an alternative technology that can contribute greatly to even higher levels of integration in semiconductor devices in combination with 1D layout. However, given increasingly complicated processes and sharp jumps in cost impact with this approach, the ideal solution would be one based on the optical reduction projection method as in the past. We anticipate the appearance of EUV technology as a next-generation lithography technology that will achieve a complementary convergence with etching and film-growing techniques developed with multi-patterning technology.
Keywords :
etching; immersion lithography; nanolithography; nanopatterning; ultraviolet lithography; 1D layout; EUV technology; etching technique; film-growing technique; immersion lithography; multipatterning capability; multipatterning technology; next-generation lithography technology; photolithography technology; semiconductor device manufacture; size 10 nm; wavelength 193 nm; Production; 1D layout; LER; Multi-patterning; Pattern fidelity; SADP; SAOP; SAQP;
Conference_Titel :
Semiconductor Technology International Conference (CSTIC), 2015 China
DOI :
10.1109/CSTIC.2015.7153363
