A Survey of Methods Used to Control Piezoelectric Tube Scanners in High-Speed AFM Imaging
Date
2018-01-17
Authors
Rana, Md. Sohel
Pota, Hemanshu R.
Petersen, Ian
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Publisher
Blackwell Publishing Ltd
Abstract
In most nanotechnology applications, speed and precision are important requirements for obtaining good topographical maps of material surfaces using atomic force microscopes (AFMs), many of which use piezoelectric tube scanners (PTSs) for scanning and positioning at nanometric resolutions. For control engineers, the PTS is particularly interesting since its ability to enable the AFM to undertake 3D imaging is entirely dependent upon the use of a feedback loop. However, it suffers from various intrinsic problems that degrade its positioning performance, such as: (i) lightly damped low‐frequency resonant modes due to its mechanical structure; (ii) nonlinear behavior due to hysteresis and creep; (iii) the cross‐coupling effect between its axes (in 3D positioning systems such as AFMs); and (iv) effect of thermal drift. This article presents a survey of the literature on the PTS, an overview of a few existing innovative solutions for its nanopositioning and future research directions. This article will help the reader to walk around the present development of the PTS aimed at meeting the requirements for high‐speed AFM imaging.
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Keywords
Nanotechnology, atomic force microscope, piezoelectric tube scanner, limiting factors
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Source
Asian Journal of Control
Type
Journal article
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Restricted until
2099-12-31
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