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JOURNAL ARTICLE

Nanometer Accurate Markerless Pattern Overlay Using Thermal Scanning Probe Lithography

Colin RawlingsUrs DuerigJames L. HedrickDan CoadyArmin W. Knoll

Year: 2014 Journal:   IEEE Transactions on Nanotechnology Vol: 13 (6)Pages: 1204-1212   Publisher: Institute of Electrical and Electronics Engineers
DOI: 10.1109/tnano.2014.2353812
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Abstract

Thermal scanning probe lithography combines high-resolution patterning capabilities with the ability to read topography without causing resist exposure. As such, it is an ideal candidate for the implementation of markerless pattern overlay. This approach eliminates errors arising from marker degradation and inconsistencies in the positioning hardware used for reading and writing. Here, we outline our implementation and characterization of a markerless lithography process. We demonstrate theoretically and experimentally that alignment errors below 5 nm are possible for micron-sized features having an amplitude of just 4 nm. Further, we show that following proper calibration, a limiting overlay accuracy of 1.1 nm per axis is achievable.

Keywords:
Lithography Resist Extreme ultraviolet lithography Overlay Calibration Optics Computer science Optical proximity correction Materials science Photolithography Computational lithography Multiple patterning Limiting X-ray lithography Next-generation lithography Electron-beam lithography Optoelectronics Nanotechnology Physics Engineering

Metrics

20
Cited By
1.42
FWCI (Field Weighted Citation Impact)
26
Refs
0.84
Citation Normalized Percentile
Is in top 1%
Is in top 10%

Citation History

Topics

Force Microscopy Techniques and Applications
Physical Sciences →  Physics and Astronomy →  Atomic and Molecular Physics, and Optics
Nanofabrication and Lithography Techniques
Physical Sciences →  Engineering →  Biomedical Engineering
Advanced Measurement and Metrology Techniques
Physical Sciences →  Engineering →  Mechanical Engineering

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