Imperfection-induced internal resonance in nanotube resonators

Journal article (2024)

Authors

P. Belardinelli Università Politecnica delle Marche
Stefano Lenci Università Politecnica delle Marche
F. Alijani Dynamics of Micro and Nano Systems - Mechanical, Maritime and Materials Engineering
Research Group
Dynamics of Micro and Nano Systems (Mechanical, Maritime and Materials Engineering) (TU Delft)
Copyright: © 2024 P. Belardinelli, S. Lenci, F. Alijani
DOI: https://doi.org/10.1016/j.jsv.2023.118130
Molecular dynamics Thermoelasticity Carbon nanotube Imperfect boundary conditions Internal resonance
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Published Date

2024

Language

English

Faculty

Mechanical, Maritime and Materials Engineering

Department

Precision and Microsystems Engineering

Research Group

Dynamics of Micro and Nano Systems

Abstract

Through molecular dynamics simulations, we demonstrate the possibility of internal resonances in single-walled carbon nanotubes. The resonant condition is engineered with a lack of symmetry in the boundary condition and activated by increasing the energy exchange with a coupled thermal bath. The critical temperature threshold for initiating modal interaction is found to be chirality-dependent. By applying the proper orthogonal decomposition algorithm to molecular dynamics time responses, we show how the thermal fluctuations influence the vibrational behaviour of the nanotube leading to both flexural–flexural and flexural–longitudinal resonances. Understanding the interaction between nanotube resonators and the thermal bath is crucial for designing and optimizing their performance for various nanoscale sensing, actuation, and signal processing applications.