Phase imaging quality improvement by modification of AFM probes’ cantilever
Autor: | L. Kaczmarek, Tomasz Wejrzanowski, T. Plocinski, Krzysztof Rozniatowski, J. Rebis, Jakub Skibinski |
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Rok vydání: | 2017 |
Předmět: |
010302 applied physics
Histology Cantilever Atomic de Broglie microscope Materials science business.industry Image quality Oscillation Nanotechnology 02 engineering and technology Surface finish 021001 nanoscience & nanotechnology 01 natural sciences Focused ion beam Signal Pathology and Forensic Medicine Optics Quality (physics) 0103 physical sciences 0210 nano-technology business |
Zdroj: | Journal of Microscopy. 269:179-186 |
ISSN: | 0022-2720 |
DOI: | 10.1111/jmi.12613 |
Popis: | Summary Imaging of the surface of materials by atomic force microscopy under tapping and phase imaging mode, with use of modified probes is addressed. In this study, the circularly shaped holes located in varying distance from the probe base, were cut out by focused ion beam. Such modification was a consequence of the results of the previous experiments (probe tip sharpening and cantilever thinning) where significant improvement of image quality in tapping and phase imaging mode has been revealed. The solution proposed herein gives similar results, but is much simpler from the technological point of view. Shorter exposition time of the tip onto gallium ions during FIB processing allows to reduce material degradation. The aim of this modification was to change harmonic oscillators’ properties in the simplest and fastest way, to obtain stronger signal for higher resonant frequencies, which can be advantageous for improving the quality of imaging in PI mode. Probes shaped in that way were used for AFM investigations with Bruker AFM nanoscope 8. As a testing material, titanium roughness standard sample, supplied by Bruker, was used. The results have shown that the modifications performed within these studies influence the oscillation of the probes, which in some cases may result in deterioration of the imaging quality under tapping mode for one or both self-resonant frequencies. However, phase imaging results obtained using modified probes are of higher quality. The numerical simulations performed by application of finite element method were used to explain the results obtained experimentally. Phenomenon described within this study allows to apply developed modelling methodology for prediction of effects of various modifications on the probes' tip, and as a result, to predict how proposed modifications will affect AFM imaging quality. |
Databáze: | OpenAIRE |
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