Understanding of hydrogen silsesquioxane electron resist for sub-5-nm-half-pitch lithography

• Main Authors: Berggren, Karl K. (Contributor), Yang, Joel K. W. (Contributor), Cord, Bryan M. (Contributor), Duan, Huigao (Contributor), Klingfus, Joseph (Author), Nam, Sung-Wook (Author), Kim, Ki-Bum (Author), Rooks, Michael J. (Author)
• Other Authors: Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science (Contributor)
• Format: Article
• Language: English
• Published: American Vacuum Society (AVS), 2012-09-19T16:43:13Z.
• Subjects: Article
• Online Access: Get fulltext

The authors, demonstrated that 4.5-nm-half-pitch structures could be achieved using electron-beam lithography, followed by salty development. They also hypothesized a development mechanism for hydrogen silsesquioxane, wherein screening of the resist surface charge is crucial in achieving a high initial development rate, which might be a more accurate assessment of developer performance than developer contrast. Finally, they showed that with a high-development-rate process, a short duration development of 15 s was sufficient to resolve high-resolution structures in 15-nm-thick resist, while a longer development degraded the quality of the structures with no improvement in the resolution.