ADI to in-cell overlay stability improvement for DRAM using novel scatterometry and comprehensive process control

Kim, Hyunsok; Ju, Jae-Wuk; Jeong, Ikhyun; Hong, Baikkyu; Nam, Sunouk; Lee, Changkyu; Lee, Kangmin; Jang, Su-Min; Lee, Jaeyoun; Yang, Hongcheon; Jeong, Min-Ho; Kim, Mingyu; Su, Hongpeng; Zhou, Wayne; Oh, Nanglyeom; Choi, DongSub; Yaziv, Tal; Spielberg, Hedvi; Bachar, Ohad; Milo, Renan; Dirawi, Rawi

doi:10.1117/12.2657632

Metrology, Inspection, and Process Control XXXVII 2023

DOI: 10.1117/12.2657632

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ADI to in-cell overlay stability improvement for DRAM using novel scatterometry and comprehensive process control

Hyunsok Kim

Jae-Wuk Ju

Ikhyun Jeong

et al.

Abstract: As the cell size of memory devices continues to shrink, tighter on-product overlay (OPO) specs require more accurate and robust overlay control. The overlay error budget mainly consists of the reticle, scanner, process, and metrology errors. The metrology budget is generally required to be <10% of the OPO control budget so that the accuracy and robustness of overlay metrology become more crucial as pattern size gets smaller on current 1x nm DRAM nodes. For overlay control in high-volume manufacturing (HVM), th… Show more

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2024

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SCOL long wavelength measurements on DRAM thick layers

Lee,

Lee

et al. 2024

Metrology, Inspection, and Process Control XXXVIII

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As the semiconductor industry rapidly approaches lithography nodes beyond 3nm, On Product Overlay (OPO) becomes a critical factor in enabling process control and manufacturing yield. The correspondingly tight OPO error budget emphasizes the importance of accurate overlay (OVL) metrology for capturing and tracking ever-smaller processes and patterning variations. In the DRAM memory segment, additional challenges arise in layers around the storage node, where the critical patterning steps are on thick layers with denser patterns than on other layers.A major challenge for optical overlay measurement on storage node layers comes from opaque optical stack materials whose optical properties reduce signal penetration effectiveness. Another key challenge is the high aspect ratio between the stack height and the target pitch, reducing diffraction efficiency and sensitivity. IBO (Image-Based Overlay) studies have shown that long wavelength (WL) improves the measurability of thick layers and significantly improves overlay results. In this paper, it is reported that longer WL (>800nm) can overcome the measurability challenges and achieve accurate results on a DRAM storage node layer. We present how improvements in raw overlay signal (pupil-plane image uniformity) further result in Total Measurement Uncertainty (TMU) and residual improvements over previous baseline solutions. Long WL enables DRAM manufacturers to meet and tighten OPO specifications on thick, storage node layers in their advanced technology architectures.

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SCOL long wavelength measurements on DRAM thick layers

Lee,

Lee

et al. 2024

Metrology, Inspection, and Process Control XXXVIII

View full text Add to dashboard Cite

show abstract

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ADI to in-cell overlay stability improvement for DRAM using novel scatterometry and comprehensive process control

Cited by 1 publication

References 6 publications

SCOL long wavelength measurements on DRAM thick layers

SCOL long wavelength measurements on DRAM thick layers

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