30 July 2002 Performance of a high-productivity 300-mm dual-stage 193-nm 0.75-NA TWINSCAN AT:1100B system for 100-nm applications
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To realize high productivity at the 100 nm node, ASML developed the TWINSCANTM AT:1100B. This dual stage 193 nm lithography system combines high throughput TWINSCANTM technology for 300 nm wafers, excellent dynamical performance, and low aberration 0.75 NA StarlithTM1100 projection optics. The system is equipped with a 20 W 4 kHz ArF laser and the AERIALTM II illuminator, enabling high intensity off axis and multi-pole QUASARTM illumination. Important process control requirements for the 100 nm technology node are CD variation across the chip and across the wafer. Full wafer leveling, including dies on the edge of the wafer, and CD uniformity performance on 300 mm wafers with and without topology are presented, showing full wafer CD uniformity numbers as low as 6.3 nm 3(sigma) for 100 nm isolated lines with assisting features. Imaging performance of dense, fully isolated lines, plus dense and isolated contact holes is shown. Also printing of critical customer structures is discussed. With these results it is demonstrated that the TWINSCANTM AT:1100B 300 mm ArF Step & Scan system meets the requirements for the 100 nm node.
© (2002) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Rian Rubingh, Rian Rubingh, Youri van Dommelen, Youri van Dommelen, Sjef Tempelaars, Sjef Tempelaars, Marc Boonman, Marc Boonman, Roger Irwin, Roger Irwin, Edwin van Donkelaar, Edwin van Donkelaar, Hans Burgers, Hans Burgers, Guustaaf Savenaije, Guustaaf Savenaije, Bert Koek, Bert Koek, Michael Thier, Michael Thier, Oliver Roempp, Oliver Roempp, Christian Hembd-Soellner, Christian Hembd-Soellner, } "Performance of a high-productivity 300-mm dual-stage 193-nm 0.75-NA TWINSCAN AT:1100B system for 100-nm applications", Proc. SPIE 4691, Optical Microlithography XV, (30 July 2002); doi: 10.1117/12.474619; https://doi.org/10.1117/12.474619

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