A Kuramoto Network in a Single Nonlinear Microelectromechanical Device
Applied Physics
2022-01-07 v1 Other Condensed Matter
Pattern Formation and Solitons
Abstract
This work presents a frequency multiplexed 3-limit cycles network in a multimode microelectromechanical nonlinear resonator. The network is composed of libration limit cycles and behaves in an analogous manner to a phase oscillator network. The libration limit cycles, being of low frequency, interact through the stress tuning of the resonator, and result in an all-to-all coupling that can be described by a Kuramoto model. Beyond the typically present cubic nonlinearity the modes in question do not require any special frequency ratios. Thus an interconnect free Kuramoto network is established within a single physical device without the need for electrical or optical coupling mechanisms between the individual elements.
Cite
@article{arxiv.2201.01913,
title = {A Kuramoto Network in a Single Nonlinear Microelectromechanical Device},
author = {Samer Houri and Motoki Asano and Hajime Okamoto and Hiroshi Yamaguchi},
journal= {arXiv preprint arXiv:2201.01913},
year = {2022}
}