Facile extraction of scanning probe shape for improved deconvolution of tip-sample interaction artifacts

Facile extraction of scanning probe shape for improved deconvolution of tip-sample interaction artifacts

Atomic Force Microscopy (AFM) has intrinsic tip-sample convolution artifacts. Commercially available tip-check samples are used to obtain only the tip radius, which can be used to deconvolute surface profiles or to quantify tip wear by relying on AFM alone. When the sample height is of the order of...

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Veröffentlicht in:Micro and Nano Systems Letters 2024-12, Vol.12 (1), p.16-7, Article 16
Hauptverfasser: Jung, Kibum, Lee, Jungchul
Format: Artikel
Sprache:eng
Schlagworte:
Analysis
Applied and Technical Physics
Atomic force microscope
Atomic force microscopy
Atomic radius
Circuits and Systems
Convolutional codes
Correspondence
Deconvolution
Electrical Engineering
Engineering
Equipment and supplies
Height
Hole patterned substrate
Image enhancement
Mechanical Engineering
Methods
Microprobe analysis
Nanotechnology
Tip shape
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Zusammenfassung:Atomic Force Microscopy (AFM) has intrinsic tip-sample convolution artifacts. Commercially available tip-check samples are used to obtain only the tip radius, which can be used to deconvolute surface profiles or to quantify tip wear by relying on AFM alone. When the sample height is of the order of 100 nm or more, not only the tip radius but also the overall tip shape plays a key role in imaging. Therefore, it is necessary to know the overall tip shape, which requires a structured sample that is much larger than tip-check samples. Here, we propose to use deep reactive ion-etched holes of 1 µ diameter and 5 µ height to reconstruct the overall tip shape of three different AFM probes, namely conical, pyramidal and tetrahedral. The proposed cylindrical hole structure seems promising, as simple inversion of AFM images can provide sufficient collective features to be used for deconvolution and image enhancement.
ISSN:2213-9621
2213-9621
DOI:10.1186/s40486-024-00207-z