论文信息 - Directly patterned inorganic hardmask for EUV lithography

Directly patterned inorganic hardmask for EUV lithography

This paper describes a metal oxide patternable hardmask designed for EUV lithography. The material has imaged 15-nm half-pitch by projection EUV exposure on the SEMATECH Berkeley MET, and 12-nm half-pitch by electron beam exposure. The platform is highly absorbing (16 μm-1) and etch resistant (>100:1 for silicon). These properties enable resist film thickness to be reduced to 20nm, thereby reducing aspect ratio and susceptibility to pattern collapse. New materials and processes show a path to improved photospeed. This paper also presents data for on coating uniformity, metal-impurity content, outgassing, pattern transfer, and resist strip.

[1] James W. Thackeray,et al. Understanding the Role of Acid vs. Electron Blur in EUV Resist Materials , 2010 .

[2] Douglas A. Keszler,et al. Solution‐Processed HafSOx and ZircSOx Inorganic Thin‐Film Dielectrics and Nanolaminates , 2007 .

[3] Lewis W. Flanagin,et al. Advancements to the critical ionization dissolution model , 2002 .

[4] Alessandro Vaglio Pret,et al. EUV RLS performance tradeoffs for a polymer bound PAG resist , 2010, Advanced Lithography.

[5] Takahiro Kozawa,et al. Acid distribution in chemically amplified extreme ultraviolet resist , 2007 .

[6] Kenneth A. Goldberg,et al. The SEMATECH Berkeley MET : extending EUV learning to 16-nm half pitch , 2011 .

[7] Douglas A. Keszler,et al. Low-Energy Path to Dense HfO2 Thin Films with Aqueous Precursor. , 2011 .

[8] Yoshitake Masuda,et al. Room-Temperature Preparation of ZrO2 Precursor Thin Film in an Aqueous Peroxozirconium-Complex Solution , 2004 .

[9] Kenneth A. Goldberg,et al. The SEMATECH Berkeley MET pushing EUV development beyond 22nm half pitch , 2010, Advanced Lithography.

[10] Zuo-Guang Ye,et al. Electric characterization of HfO2 thin films prepared by chemical solution deposition , 2005 .

[11] Theodore H. Fedynyshyn,et al. Polymer photochemistry at the EUV wavelength , 2010, Advanced Lithography.