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Beilstein J. Nanotechnol. 2015, 6, 2015–2027, doi:10.3762/bjnano.6.205
Figure 1: Schematic representation of the OP model. (a) A representative force–distance curve for the OP mode...
Figure 2: SPM control units and interconnections for a single tower system [17].
Figure 3: Positioning of the multi-probe system inside the acoustic chamber.
Figure 4: Experimental setup demonstrating the proposed two probe nanoindentation technique.
Figure 5: An example resonance response of AFM probes used in the experiments.
Figure 6: Experimental data showing AFM probe measurements on top of the diamond indenter for a fused silica ...
Figure 7: Fused silica force–distance curve.
Figure 8: Spring constant vs maximum depth of penetration.
Figure 9: Finite element analysis data as compared to experimental data.
Figure 10: Images of cube-corner diamond tip used in nanoindentation experiments. (a) A 3D representation of A...
Figure 11: Force–distance curves on silicon substrate.
Figure 12: Topography and cross-sectional profile of indent on silicon.
Figure 13: Force–distance curves on Corning Eagle Glass substrate.
Figure 14: Power-law fitting to the unloading part of a silicon force–distance curve.
Beilstein J. Nanotechnol. 2013, 4, 385–393, doi:10.3762/bjnano.4.45
Figure 1: An 11 × 11 micrometer scan of a three component polymer blend (PS, PP, PE) imaged with an Olympus A...
Figure 2: Using the same cantilever and sample from Figure 1, the imaging modes are compared at different energy leve...
Figure 3: The same experiment as Figure 2, plotting first eigenmode phase lag . In the top row (a, b) the first eigen...
Figure 4: Simulated line scans for the parameters in Table 2 and two different second eigenmode drive amplitudes. Th...
Figure 5: A simulation in which the second eigenmode drive amplitude is swept up and then down continuously. ...
Figure 6: A drive amplitude sweep similar to Figure 5 except that two different materials are compared (both are swee...
Figure 7: The simulation of Figure 6 repeated except with a pure Hertz model (no energy dissipation). In comparison t...