Application of e-Beam Voltage Contrast Technique for Overlay Improvement and Process Window Control in Multi-Patterning Interconnect Scheme

Yang, Linrong; Li, Runling; Hsu, Ikai; Zhang, Haiqiong; Ren, Jinhan; Zhou, Wenzhan; Sun, Linlin; Xue, Yawen; Yang, Wenchao; Zhang, Ruilin; Zhu, Yizheng; Zhang, Yan; Zhang, Guifeng; Fu, Yingying; Yin, Shan; Jia, Yujie; Yu, Bo; Brozek, Tomasz

doi:10.1109/jeds.2022.3203125

Cited by 2 publications

References 5 publications

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Efficient metrology for edge placement error and process window characterization using design for inspection methodology

Strojwas,

Brozek,

2023

J. Micro/Nanopattern. Mats. Metro.

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.With the multiple patterning schemes and recent introduction of EUV lithography, there is a clear need to fully characterize the edge placement error (EPE) budget in the technology development, and if this information is available in-line, use this information for process control. This methodology has been currently applied to the EUV characterization where the overlay (OVL) and local linewidth roughness (LWR) variations contribute the most to the EPE budget. We describe EPE metrology techniques based on design for inspection™ (DFI) methodology, with non-contact electrical measurements of spatial interactions between integrated circuit (IC) elements created with different patterning and manufacturing steps. Specially designed sub-micron scale test structures are placed within the product die (in place of the filler cells and dummy fill without any area penalty), as well as in the scribe lines, which allows for the EPE monitoring with sub-design rule designs. All DFI structures are tested with a custom (designed and manufactured by PDF) eBeam voltage contrast tool with a very high speed and sub-nm resolution. This methodology has been currently applied to the EUV characterization where the OVL and local LWR variations contribute the most to the EPE budget. In this work, we describe and illustrate the DFI methodology application for the EPE and process window characterization and control.

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Efficient metrology for edge placement error and process window characterization using design for inspection methodology

Strojwas,

Brozek,

2023

J. Micro/Nanopattern. Mats. Metro.

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Single exposure EUV patterning optimization and defect inspection of hexagonal contact hole arrays using voltage contrast metrology

Das,

Blanco Carballo,

Dey

et al. 2024

International Conference on Extreme Ultraviolet Lithography 2024

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A single exposure EUV patterning process has been optimized for hexagonal contact holes (CHs) at pitch 36 nm and SRAM via. Defect inspection results are reported using after etch voltage contrast (VC) metrology as well as after metallization. By comparing top-down scanning electron microscopy (SEM) and VC images, the VC technique was proven to detect the close defective CHs not only on the top surface but also at the bottom of CHs. This is confirmed on cross section inspection using transmission electron microscopy (TEM) metrology. To quantify the number of defects (NoDs) per million CHs, both a greyscale analysis and a computer vision-based defect analysis algorithm are used and exhibits the dependence of NoDs on CHs mean CD. This algorithm is capable of detecting, classifying, and incrementally counting the occurrence of defect instances as closed, partially open and open CHs. An advantage of this algorithm is its distortion invariance and independence from GDS alignment.

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Application of e-Beam Voltage Contrast Technique for Overlay Improvement and Process Window Control in Multi-Patterning Interconnect Scheme

Cited by 2 publications

References 5 publications

Efficient metrology for edge placement error and process window characterization using design for inspection methodology

Efficient metrology for edge placement error and process window characterization using design for inspection methodology

Single exposure EUV patterning optimization and defect inspection of hexagonal contact hole arrays using voltage contrast metrology

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