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2 article(s) from Lange, Manfred

Spring constant of a tuning-fork sensor for dynamic force microscopy

Dennis van Vörden,
Manfred Lange,
Merlin Schmuck,
Nico Schmidt and
Rolf Möller

Beilstein J. Nanotechnol. 2012, 3, 809–816, doi:10.3762/bjnano.3.90

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Figure 1: Setup for evaluating the spring constant by Hooke’s law. The deflection is measured by analyzing di...

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Figure 2: Deflection versus force for 24 TFs using Torr Seal. The individual lines are displaced for clarity.

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Figure 3: (a) Sketch of the qPlus configuration in our setup. (b) Picture of a mounted tuning fork. The area ...

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Figure 4: Power spectral density of the thermal fluctuations of a tuning fork at 300 and 80 K. The inset show...

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Figure 5: (a) Mesh-grid model of the tuning fork used for FEM simulations. (b) Sketch of the glue enclosing t...

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Figure 6: FEM simulation of a deflected TF. The stress is given by the color scale. The inset (red box) shows...

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Figure 7: Results of the FEM simulations, when one parameter is varied. The standard parameters are thickness ...

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Full Research Paper

Published 29 Nov 2012

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A measurement of the hysteresis loop in force-spectroscopy curves using a tuning-fork atomic force microscope

Manfred Lange,
Dennis van Vörden and
Rolf Möller

Beilstein J. Nanotechnol. 2012, 3, 207–212, doi:10.3762/bjnano.3.23

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Figure 1: (a) STM image of the PTCDA/Ag/Si(111) √3 × √3 surface. Scan area: 250 nm × 250 nm, tunneling voltag...

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Figure 2: STM image of a double layer of PTCDA arranged in a herringbone phase. The structure is indicated by...

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Figure 3: (a) Frequency-shift versus distance curve. The contribution from the long-range forces has been sub...

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Figure 4: Scheme of the dissipation processes. The black arrows mark the different “snapshots” for the approa...

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Figure 5: (a) Dissipation signal for approach (black dots) and retraction (red dots). The inset displays the ...

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Full Research Paper

Published 08 Mar 2012

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