极紫外光刻
抵抗
介绍(产科)
大洪水
表面粗糙度
材料科学
表面光洁度
光学
工程物理
光电子学
纳米技术
计算机科学
物理
医学
历史
复合材料
图层(电子)
考古
放射科
作者
Michael Carcasi,Tomoki Nagai,Motoyuki Shima,Toru Kimura,Takehiko Naruoka,Masafumi Hori,Satoshi Dei,Geert Vandenberghe,Seiichi Tagawa,Masayuki Miyake,Seiji Nagahara,Gosuke Shiraishi,Yukie Minekawa,Hiroyuki Ide,Yoshihiro Kondo,Kosuke Yoshihara,Ryo Shimada,Masaru Tomono,Kazuhiro Takeshita,Teruhiko Moriya
摘要
Photosensitized Chemically Amplified ResistTM (PSCARTM) **2.0's advantages and expectations are reviewed in this paper. Alpha PSCAR in-line UV exposure system ("Litho Enhancer") was newly installed at imec in a Tokyo Electron Ltd. (TELTM)'s CLEAN TRACKTM LITHIUS ProTM Z connected to an ASML's NXE:3300. Using the Litho Enhancer, PSCAR 2.0 sensitization preliminary results show that suppression of roughness enhancement may occur while sensitivity is increased. The calibrated PSCAR 2.0 simulator is used for prediction of resist formulation and process optimization. The simulation predicts that resist contrast enhancement could be realized by resist formulation and process optimization with UV flood exposure.
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