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23 October 2015 Optical proximity correction for extreme ultra-violet mask with pellicle
Soo-Yeon Mo, In-Seon Kim, Hye-Keun Oh
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Proceedings Volume 9635, Photomask Technology 2015; 96351F (2015) https://doi.org/10.1117/12.2196975
Event: SPIE Photomask Technology, 2015, Monterey, California, United States
Abstract
Extreme ultraviolet (EUV) lithography is considered as one of the viable solutions for production of the next generation integrated devices. EUV mask defect control becomes more critical issue in order to sustain the quality of wafer fabrication process. Since pellicle is the essential component to prevent patterning deformations caused by particle defects on EUV mask[1-2], EUV OPC (optical proximity correction) that takes into account for pellicle effects on imaging quality is required for achieving better pattern fidelity and critical dimension control. In this study, image blurring effect induced by the EUV mask pellicle on mask pattern structures was investigated and it was found that the localized short-range OPC using commercial software performed as desired considering transmission intensity loss due to pellicle. For experiment, edge placement error differences of the same 2D logic patterns with 16 nm half pitch with and without pellicle were compared. Finally, a method was suggested how patterning throughput loss caused by the transmission loss can be compensated by EUV OPC, which may allow pellicle transmission even below 90%.
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Soo-Yeon Mo, In-Seon Kim, and Hye-Keun Oh "Optical proximity correction for extreme ultra-violet mask with pellicle", Proc. SPIE 9635, Photomask Technology 2015, 96351F (23 October 2015); https://doi.org/10.1117/12.2196975
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KEYWORDS
Pellicles
Optical proximity correction
Extreme ultraviolet
Photomasks
Optical lithography
Nanoimprint lithography
Image transmission
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