Resonance in Atomic-Scale Sliding Friction

Zaoqi Duan; Zhiyong Wei; Shuyu Huang; Yongkang Wang; Chengdong Sun; Yi Tao; Yun Dong; Juekuan Yang; Yan Zhang; Yajing Kan; Deyu Li; Yunfei Chen

doi:https://doi.org/10.1021/acs.nanolett.1c00622

doi.org/10.1021/acs.nanolett.1c00622

Resonance in Atomic-Scale Sliding Friction

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..., Yunfei Chen

37

Nano Letters10.80

Volume: 21, Issue: 11, Pages: 4615 - 4621

Published: May 21, 2021

Abstract

Friction represents a major energy dissipation mode, yet the atomistic mechanism of how friction converts mechanical motion into heat remains elusive. It has been suggested that excess phonons are mainly excited at the washboard frequency, the fundamental frequency at which relative motion excites the interface atoms, and the subsequent thermalization of these nonequilibrium phonons completes the energy dissipation process. Through combined...

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Paper Details

Title

Resonance in Atomic-Scale Sliding Friction

DOI

doi.org/10.1021/acs.nanolett.1c00622

Published Date

May 21, 2021

Journal

Nano Letters

Volume

21

Issue

11

Pages

4615 - 4621

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