Fourier transformed atomic force microscopy: tapping mode atomic force microscopy beyond the Hookian approximation

Robert W. Stark; Wolfgang M. Heckl

doi:10.1016/S0039-6028(00)00378-2

Fourier transformed atomic force microscopy: tapping mode atomic force microscopy beyond the Hookian approximation

Robert W. Stark, Wolfgang M. Heckl

University of Munich

Research output: Contribution to journal › Article › peer-review

145 Scopus citations

Abstract

The periodic impact force induced by the tip-sample contact in tapping mode atomic force microscopy (TM-AFM) gives rise to anharmonic oscillations of the sensing cantilever. These anharmonic signals can be understood with a model which goes beyond the common Hookian approximation: the cantilever is described as a multiple degree of freedom system. A theoretical analysis of the anharmonic signals in the light of the extended model shows that these signals contain information on the elastic properties of the specimen surface. In Fourier transformed operation mode of TM-AFM the anharmonic oscillations are analyzed in the frequency domain. This allows for the reconstruction of characteristics of the tip-sample force, like contact time and maximum contact force.

Original language	English
Pages (from-to)	219-228
Number of pages	10
Journal	Surface Science
Volume	457
Issue number	1
DOIs	https://doi.org/10.1016/S0039-6028(00)00378-2
State	Published - 1 Jun 2000
Externally published	Yes

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title = "Fourier transformed atomic force microscopy: tapping mode atomic force microscopy beyond the Hookian approximation",

abstract = "The periodic impact force induced by the tip-sample contact in tapping mode atomic force microscopy (TM-AFM) gives rise to anharmonic oscillations of the sensing cantilever. These anharmonic signals can be understood with a model which goes beyond the common Hookian approximation: the cantilever is described as a multiple degree of freedom system. A theoretical analysis of the anharmonic signals in the light of the extended model shows that these signals contain information on the elastic properties of the specimen surface. In Fourier transformed operation mode of TM-AFM the anharmonic oscillations are analyzed in the frequency domain. This allows for the reconstruction of characteristics of the tip-sample force, like contact time and maximum contact force.",

author = "Stark, {Robert W.} and Heckl, {Wolfgang M.}",

note = "Funding Information: We thank R. Hillenbrand, M. Stark, R. Guckenberger, F. Keilmann (all MPI f{\"u}r Biochemie, Martinsried, Germany) and T. Drobek for fruitful discussions. This work was supported by Grant BMBF 13N7509. ",

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AU - Stark, Robert W.

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N2 - The periodic impact force induced by the tip-sample contact in tapping mode atomic force microscopy (TM-AFM) gives rise to anharmonic oscillations of the sensing cantilever. These anharmonic signals can be understood with a model which goes beyond the common Hookian approximation: the cantilever is described as a multiple degree of freedom system. A theoretical analysis of the anharmonic signals in the light of the extended model shows that these signals contain information on the elastic properties of the specimen surface. In Fourier transformed operation mode of TM-AFM the anharmonic oscillations are analyzed in the frequency domain. This allows for the reconstruction of characteristics of the tip-sample force, like contact time and maximum contact force.

AB - The periodic impact force induced by the tip-sample contact in tapping mode atomic force microscopy (TM-AFM) gives rise to anharmonic oscillations of the sensing cantilever. These anharmonic signals can be understood with a model which goes beyond the common Hookian approximation: the cantilever is described as a multiple degree of freedom system. A theoretical analysis of the anharmonic signals in the light of the extended model shows that these signals contain information on the elastic properties of the specimen surface. In Fourier transformed operation mode of TM-AFM the anharmonic oscillations are analyzed in the frequency domain. This allows for the reconstruction of characteristics of the tip-sample force, like contact time and maximum contact force.

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JO - Surface Science

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Fourier transformed atomic force microscopy: tapping mode atomic force microscopy beyond the Hookian approximation

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