Energy dissipation in Atomic Force Microscopy and Atomic Loss Processes

Peter M. Hoffmann, Ahmet Oral, John B. Pethica

Research output: Contribution to journalArticlepeer-review

Abstract

Atomic scale dissipation is of great interest in nanomechanics and atomic manipulation. We present dissipation measurements with a linearized, ultrasmall amplitude atomic force microscope which is capable of measuring dissipation at chosen, fixed separations. We show that the dynamic dissipation in the noncontact regime is of the order of a few 10–100 meV per cycle. This dissipation is likely due to the motion of a bistable atomic defect in the tip-surface region. In the contact regime we observe dc hysteresis associated with nanoscale plasticity. We find the hysteretic energy loss to be 1 order of magnitude higher for a silicon surface than for copper.
Original languageAmerican English
JournalPhysical Review Letters
DOIs
StatePublished - 2001

Disciplines

  • Physical Sciences and Mathematics

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