Add to ORKGThe response of a coupled array of nonlinear oscillators to parametric excitation is calculated in the weak nonlinear limit using secular perturbation theory. Exact results for small arrays of oscillators are used to guide the analysis of the numerical integration of the model equations of motion for large arrays. The results provide a qualitative explanation for a recent experiment [Buks and Roukes, J. Microelectromech. Syst. 11, 802 (2002)] involving a parametrically excited micromechanical resonator array. Future experiments are suggested which could provide quantitative tests of the theoretical predictions
International audienceIn order to overcome the loss of performances issue when scaling resonant sens...
International audienceIn order to overcome the loss of performances issue when scaling resonant sens...
International audienceIn order to compensate for the loss of performance when scaling resonant senso...
We study the response of a large array of coupled nonlinear oscillators to parametric excitation, mo...
We study the problem of pattern selection in an array of parametrically driven nonlinear resonators ...
In the last decade we have witnessed exciting technological advances in the fabri-cation and control...
This review provides a summary of the work completed to date on the nonlinear dynamics of resonant m...
Advances in nanoscience and nanotechnology hold enormous promises to benefit humankind in basic rese...
We study intrinsic localized modes (ILMs), or solitons, in arrays of parametrically driven nonlinear...
We study intrinsic localized modes (ILMs), or solitons, in arrays of parametrically driven nonlinear...
Micro/nanomechanical resonators have been actively studied in the last decade in designs of highly s...
Nano-electro-mechanical systems (NEMS), used as sensors for small masses and forces, have traditiona...
Microelectromechanical Systems are ubiquitous in modern technology, with applications ranging from a...
We model and investigate the response of a nonlinear cantilever beam under principal parametric exci...
As a model of coupled nano-electromechanical resonators we study two nonlinear driven oscillators wi...
International audienceIn order to overcome the loss of performances issue when scaling resonant sens...
International audienceIn order to overcome the loss of performances issue when scaling resonant sens...
International audienceIn order to compensate for the loss of performance when scaling resonant senso...
We study the response of a large array of coupled nonlinear oscillators to parametric excitation, mo...
We study the problem of pattern selection in an array of parametrically driven nonlinear resonators ...
In the last decade we have witnessed exciting technological advances in the fabri-cation and control...
This review provides a summary of the work completed to date on the nonlinear dynamics of resonant m...
Advances in nanoscience and nanotechnology hold enormous promises to benefit humankind in basic rese...
We study intrinsic localized modes (ILMs), or solitons, in arrays of parametrically driven nonlinear...
We study intrinsic localized modes (ILMs), or solitons, in arrays of parametrically driven nonlinear...
Micro/nanomechanical resonators have been actively studied in the last decade in designs of highly s...
Nano-electro-mechanical systems (NEMS), used as sensors for small masses and forces, have traditiona...
Microelectromechanical Systems are ubiquitous in modern technology, with applications ranging from a...
We model and investigate the response of a nonlinear cantilever beam under principal parametric exci...
As a model of coupled nano-electromechanical resonators we study two nonlinear driven oscillators wi...
International audienceIn order to overcome the loss of performances issue when scaling resonant sens...
International audienceIn order to overcome the loss of performances issue when scaling resonant sens...
International audienceIn order to compensate for the loss of performance when scaling resonant senso...