High speed nanotribology with quartz crystal resonators via Atomic Force Microscopy

TL;DR

This study demonstrates high-speed nanotribology measurements using quartz crystal resonators with AFM, achieving oscillation speeds up to several meters per second and analyzing the effects on local friction coefficients.

Contribution

It introduces a method to measure and analyze nanotribology at high speeds using quartz crystal resonators and AFM, including calibration and error analysis.

Findings

Oscillation speeds up to several m/s achieved

Friction coefficients increase with oscillation

Calibration methods discussed in detail

Abstract

Friction measurements in the range of several meters per second are still of great interests. With the atomic force microscopy (AFM), the oscilaltion situation of the quartz crystal resonators of 3MHz resonance frequency are studied. And the oscillation speed could reach up to several m/s. Then the friction measurements are carried out on the Fischer Pattern, which is prepared on the quartz crystal resonator. In this article, we present how to measure the oscillation speeds of the quartz crystal resonator and the friction measurements under different designs. Calibration method and the calculation methods are also discussed in details. Although there are errors in the AFM measurements due to the setup itself and the oscillating quartz which could highly affect the sharpness of the cantilever tip, the results indicate that the local friction coefficients with oscillation are higher than that without oscillation.