AIMÉ, Jean-Pierre; BOISGARD, Rodolphe; NONY, Laurent; COUTURIER, Gérard

doi:10.1063/1.1349179

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AIMÉ, Jean-Pierre
Centre de physique moléculaire optique et hertzienne [CPMOH]

BOISGARD, Rodolphe
Centre de physique moléculaire optique et hertzienne [CPMOH]

NONY, Laurent

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Ce document a été publié dans

Journal of Chemical Physics. 2001, vol. 114, p. 4945-4954

American Institute of Physics

Résumé en anglais

In the Tapping mode, a variation of the oscillation amplitude and phase as a function of the tip sample distance is the necessary measurement to access quantitatively to the properties of the surface. In the present work, we give a systematic comparison between experimental data recorded on two surfaces, phase and amplitude, and theoretical curves. With an interaction between the tip and the surface taking into account an attractive and a repulsive term, the analytical approach is unable to properly describe the relationship between the phase variation and the oscillation amplitude variation. When an additional dissipation term is involved, due to the attractive interaction between the tip and the surface, the model gives a good agreement with the recorded data. Particularly, the trends in the phase variations related to the noncontact situations have been found to be amenable to an analysis based upon a simple viscoelastic behavior of the surface.< Réduire

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AFM

tapping mode

Non-contact

dissipation

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Influence of noncontact dissipation in the tapping mode: Attempt to extract quantitative information on the surface properties with the local force probe method

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