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2 article(s) from Klocke, Michael

Coupled molecular and cantilever dynamics model for frequency-modulated atomic force microscopy

Michael Klocke and
Dietrich E. Wolf

Beilstein J. Nanotechnol. 2016, 7, 708–720, doi:10.3762/bjnano.7.63

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Figure 1: Three-dimensional plot (left) and schematic representation (right) of simulation setup. The tip is ...

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Figure 2: Top view of the substrate surface for the Lennard-Jones case. Distance dependence is probed at posi...

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Figure 3: Top view of the substrate surface for the ionic crystal. Distance dependence is probed at position ...

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Figure 4: Energy dissipation and frequency shift as a function of the nominal distance. Each point is calcula...

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Figure 5: Trajectory of the apex atom at tip position A (Figure 2). Δx and Δy are its x- and y-coordinates relative t...

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Figure 6: Potential energy surface a) in the (111)-plane of the apex atom, when the tip is far away from the ...

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Figure 7: Simulated constant-height scans along the line shown in Figure 2 for a Lennard-Jones system (position A at y...

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Figure 8: Damping and reduced frequency shift as a function of the nominal distance d for position A (apex at...

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Figure 9: Simulated constant-height scan (d = 0.4 nm) for KBr along the line shown in Figure 3. The first panel shows...

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Figure 10: Damping and reduced frequency shift as a function of the nominal distance d for position y = 0.243 ...

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Figure 11: Damping rate (upper curve) and dissipation rate (lower curve) as a function of the strength ε of th...

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Full Research Paper

Published 17 May 2016

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Dissipation signals due to lateral tip oscillations in FM-AFM

Michael Klocke and
Dietrich E. Wolf

Beilstein J. Nanotechnol. 2014, 5, 2048–2057, doi:10.3762/bjnano.5.213

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Figure 1: Sketch of the two-dimensional model setup.

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Figure 2: Distance-dependency of the energy transfer after one cycle. As a function of the nominal distance (...

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Figure 3: Numerical results of energy in lateral degree of freedom after one cycle (line) and maximum energy ...

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Figure 4: Distance dependency of dissipation rate for one cycle (dashed line) and averaged over 30 cycles (so...

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Figure 5: Dissipation rate depending on frequency ratio ω_x/ω_z for different systems. Dashed line indicates th...

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Figure 6: Dissipation rate with respect to the variation of the Q-factor for nominal distances of d = 0.8 nm ...

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Figure 7: Topography and dissipation for KBr. Scan line along [010]. We observe a doubling in the dissipation...

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Figure 8: Topography and dissipation for Monte-Carlo parameter-space study.

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Full Research Paper

Published 10 Nov 2014

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