Atomic-scale stick-slip through a point defect

E Gnecco and P Nicolini, PHYSICAL REVIEW B, 109, 134103 (2024).

DOI: 10.1103/PhysRevB.109.134103

We have derived a series of analytical formulas describing the motion of a nanotip elastically driven across a Gaussian potential well of depth U-1 and half width sigma. The tip gets pinned if the impact parameter y(0) is below a well-defined threshold value. Together with U-1 and sigma , this value determines the pinning force. The scenario is slightly modified by superimposing a periodic potential with amplitude U-0 in the background, provided that U-0 << U-1. The formulas presented here can be applied to estimate the pinning energy and the linear extension of the perturbation created by a point defect such as an atomic vacancy on a crystal surface from atomic-scale friction force measurements performed by scanning probe microscopy.

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