Pushing the Boundaries of random logic metal patterning with Low-n EUV Single Exposure

Roy, Syamashree; Thiam, Arame; Sah, Kaushik; Feurprier, Yannick; Fukui, Nobuyuki; Nafus, Kathleen; Miyaguchi, Kenichi; Van Den Heuvel, Dieter; Baskaran, Balakumar; Bekaert, Joost; Cross, Andrew; Dusa, Mircea; Blanco, Victor

doi:10.1117/12.3010868

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dc.contributor.author	Roy, Syamashree
dc.contributor.author	Thiam, Arame
dc.contributor.author	Sah, Kaushik
dc.contributor.author	Feurprier, Yannick
dc.contributor.author	Fukui, Nobuyuki
dc.contributor.author	Nafus, Kathleen
dc.contributor.author	Miyaguchi, Kenichi
dc.contributor.author	Van Den Heuvel, Dieter
dc.contributor.author	Baskaran, Balakumar
dc.contributor.author	Bekaert, Joost
dc.contributor.author	Cross, Andrew
dc.contributor.author	Dusa, Mircea
dc.contributor.author	Blanco, Victor
dc.date.accessioned	2026-01-19T15:20:18Z
dc.date.available	2026-01-19T15:20:18Z
dc.date.issued	2024
dc.description.abstract	As the semiconductor industry progresses towards the 2nm logic technology node in pursuit of improved chip performance and density, the demand for minimum pitch scaling in the back-end-of-line (BEOL) interconnect becomes crucial. Imec N3 logic design rules defined a minimum Metal 2 (M2) layer pitch of 30 nm, representing 2nm technology nodes. To further enhance semiconductor integrated circuit performance, attention is shifting towards advanced mask materials for current 0.33 NA EUV scanners. Low-n masks have been shown to improve extreme ultraviolet (EUV) imaging performance in terms of Local-CDU (LCDU), reduced mask 3D effects and improved optical contrast compared to a Tabased mask. In our study, we observed notable enhancements in optical contrast for real logic designs using a low-n mask. Our findings demonstrate an impressive LCDU of 5.5 nm and CGDU of 5.5 nm for Place’n’Route (PnR) structures at a pitch of 32. Furthermore, we successfully printed tip-to-tip (T2T) features as small as 20 nm on the wafer for regular tip-to-tip structures that didn’t get any Optical proximity Correction (OPC). These advancements mark significant progress towards manufacturability and developing a holistic patterning approach for random logic metal with EUV.
dc.identifier	10.1117/12.3010868
dc.identifier.doi	10.1117/12.3010868
dc.identifier.isbn	978-1-5106-7213-0
dc.identifier.issn	0277-786X
dc.identifier.uri	https://imec-publications.be/handle/20.500.12860/58669
dc.language.iso	en
dc.provenance.editstepuser	greet.vanhoof@imec.be
dc.publisher	SPIE
dc.relation.ispartof	OPTICAL AND EUV NANOLITHOGRAPHY XXXVII
dc.relation.ispartofseries	OPTICAL AND EUV NANOLITHOGRAPHY XXXVII
dc.source.beginpage	129530X
dc.source.conference	Optical and EUV Nanolithography XXXVII
dc.source.conferencedate	2024-02-26
dc.source.conferencelocation	San Jose
dc.source.journal	Proceedings of SPIE
dc.subject	Bright-Field
dc.subject	Low-n
dc.subject	Real Logic design
dc.subject	PnR
dc.subject	SRAM
dc.subject	LCDU
dc.subject	GCDU
dc.subject	Science & Technology
dc.subject	Technology
dc.subject	Physical Sciences
dc.title	Pushing the Boundaries of random logic metal patterning with Low-n EUV Single Exposure
dc.type	Proceedings paper
dspace.entity.type	Publication
oaire.citation.edition	WOS.ISTP
oaire.citation.volume	12953
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Pushing the Boundaries of random logic metal patterning with Low-n EUV Single Exposure

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