Add to ORKGThe occurrence of multiple jumps in 2D atomic-scale friction measurements is used to quantify the viscous damping accompanying the stick-slip motion of a sharp tip in contact with a NaCl(001) surface. Multiple slips are observed without apparent wear for normal forces between 13 and 91nN. For scans parallel to [100] directions, the tip jumps between minima of the substrate corrugation potential in a zigzag fashion. An algorithm is applied to determine histograms of lateral force jumps which characterize multiple slips. The same algorithm is used to classify multiple slips occurring in calculated lateral force maps. Comparisons between simulations and experiments indicate that the nanometer-sized contact is underdamped at intermediate loads ...
When a microcantilever with a nanoscale tip is scanned laterally over a surface to measure the nanos...
Controlling friction on the nanometer scale is one of nowadays’ challenges for scientists and engine...
Abstract Molecular dynamics simulation and atomic force microscopy are used to study the nature of f...
Friction force microscopy (FFM) explores the interaction in a sliding contact on the nanoscale, prov...
The influence of lateral vibrations on the stick-slip motion of a nanotip elastically pulled on a fl...
Sliding friction is a nonconservative force in which kinetic energy is dissipated via various phenom...
Using the quasistatic Tomlinson model as a simple representation of an atomic force microscope, cond...
We present a theoretical study of dry sliding friction, which has a close bearing on the experiments...
Simulations of dry sliding friction between a metal asperity and an incommensurate metal surface rev...
This article presents a quantitative determination of static deformation at a nanometer scale of a s...
Friction has long been the subject of research: the empirical da Vinci-Amontons friction laws have b...
This paper presents an atomic-scale study of contact, indentation, and subsequent pulling and dry sl...
The friction force on a nanometer-sized tip sliding on a surface is related to the thermally activat...
Controlling friction on the nanometer scale is one of nowaday challenges for scientists and engineer...
Abstract When a microcantilever with a nanoscale tip is scanned laterally over a surface to measure ...
When a microcantilever with a nanoscale tip is scanned laterally over a surface to measure the nanos...
Controlling friction on the nanometer scale is one of nowadays’ challenges for scientists and engine...
Abstract Molecular dynamics simulation and atomic force microscopy are used to study the nature of f...
Friction force microscopy (FFM) explores the interaction in a sliding contact on the nanoscale, prov...
The influence of lateral vibrations on the stick-slip motion of a nanotip elastically pulled on a fl...
Sliding friction is a nonconservative force in which kinetic energy is dissipated via various phenom...
Using the quasistatic Tomlinson model as a simple representation of an atomic force microscope, cond...
We present a theoretical study of dry sliding friction, which has a close bearing on the experiments...
Simulations of dry sliding friction between a metal asperity and an incommensurate metal surface rev...
This article presents a quantitative determination of static deformation at a nanometer scale of a s...
Friction has long been the subject of research: the empirical da Vinci-Amontons friction laws have b...
This paper presents an atomic-scale study of contact, indentation, and subsequent pulling and dry sl...
The friction force on a nanometer-sized tip sliding on a surface is related to the thermally activat...
Controlling friction on the nanometer scale is one of nowaday challenges for scientists and engineer...
Abstract When a microcantilever with a nanoscale tip is scanned laterally over a surface to measure ...
When a microcantilever with a nanoscale tip is scanned laterally over a surface to measure the nanos...
Controlling friction on the nanometer scale is one of nowadays’ challenges for scientists and engine...
Abstract Molecular dynamics simulation and atomic force microscopy are used to study the nature of f...