Theory for the Atomic Force Microscopy of Deformable Surfaces
- 21 August 1989
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 63 (8) , 876-879
- https://doi.org/10.1103/physrevlett.63.876
Abstract
We present a theory for the atomic force microscopy (AFM) of deformable surfaces and apply it to graphite with and without intercalated atoms. Using continuum elasticity theory for graphite layers, with parameters obtained from ab initio calculations, we determine quantitatively local distortions in the vicinity of a sharp AFM tip as a function of the applied force. Our calculations show that AFM should be a unique tool to determine local surface rigidity and to measure the healing length of graphite in the vicinity of intercalated impurities or steps.Keywords
This publication has 18 references indexed in Scilit:
- Composition-drivenc-axis expansion of intercalated layered solids: 1D non–Vegard’s-law behavior in a 2D solid solutionPhysical Review Letters, 1989
- Theoretical interpretation of atomic-force-microscope images of graphiteSurface Science, 1989
- First-principles calculation of highly asymmetric structure in scanning-tunneling-microscopy images of graphitePhysical Review B, 1988
- Theoretical scanning tunneling microscopy and atomic force microscopy study of graphite including tip–surface interactionJournal of Vacuum Science & Technology A, 1988
- Theory and observation of highly asymmetric atomic structure in scanning-tunneling-microscopy images of graphitePhysical Review B, 1987
- Atomic Force MicroscopePhysical Review Letters, 1986
- Theory of the scanning tunneling microscopePhysical Review B, 1985
- Theory and Application for the Scanning Tunneling MicroscopePhysical Review Letters, 1983
- Surface Studies by Scanning Tunneling MicroscopyPhysical Review Letters, 1982
- Tunneling through a controllable vacuum gapApplied Physics Letters, 1982