Atomic-Scale Structure of Dislocations Revealed by Scanning Tunnelling Microscopy and Molecular Dynamics

E. L{\ae}gsgaard; F. Besenbacher; J. Christiansen; J. Schi{\o}tz; K.-F. Braun; K.-H. Rieder; K. Morgenstern; K. W. Jacobsen

arxiv: cond-mat/0110552 · v2 · submitted 2001-10-26 · ❄️ cond-mat.mtrl-sci

Atomic-Scale Structure of Dislocations Revealed by Scanning Tunnelling Microscopy and Molecular Dynamics

J. Christiansen , K. Morgenstern , J. Schi{\o}tz , K. W. Jacobsen , K.-F. Braun , K.-H. Rieder , E. L{\ae}gsgaard , F. Besenbacher This is my paper

classification ❄️ cond-mat.mtrl-sci

keywords dislocationsstructuresurfacedynamicsmicroscopymolecularregionscanning

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The intersection between dislocations and a Ag(111) surface has been studied using an interplay of scanning tunneling microscopy (STM) and molecular dynamics (MD). Whereas the STM provides atomically resolved information about the surface structure and Burgers vectors of the dislocations, the simulations can be used to determine dislocation structure and orientation in the near-surface region. In a similar way, the sub-surface structure of other extended defects can be studied. The simulations show dislocations to reorient the partials in the surface region leading to an increased splitting width at the surface, in agreement with the STM observations. Implications for surface-induced cross slip are discussed.

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Atomic-Scale Structure of Dislocations Revealed by Scanning Tunnelling Microscopy and Molecular Dynamics

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