AbstractResonance interactions of oscillators are responsible for fundamental effects in different areas of physics and classical mechanics. The resonance between any two oscillators/modes destroys their individuality by generating a new effective oscillator of energy flow between the two parent oscillators, which is known as beating. In particular, the fundamental character of such energy exchange oscillators is revealed by the fact of their exact integrability in many physically reasonable cases. The present work illustrates such a standpoint on elastic oscillators, discrete liquid sloshing models, and ‘macroscopic’ quantum dynamics related to Josephson's effects. In the case of elastic oscillations, a strongly nonlinear conservative osci...
The present paper gives an analytical perturbation theory to treat the problem of internal resonance...
We study targeted energy transfer (TET) [1] from a linear damped oscillator (LO) to a light attachme...
In oscillating mechanical systems, nonlinearity is responsible for the departure from proportionalit...
AbstractResonance interactions of oscillators are responsible for fundamental effects in different a...
We study the dynamics of two conservative librating oscillators with perturbations from a linear dis...
We study targeted energy transfers and nonlinear transitions in the damped dynamics of a two degree-...
Nonlinear mechanisms are frequently invoked to explain unexpected observations during processes of e...
It is shown that the classical dynamics of 1:1 resonance interaction between two identical linearly ...
Copyright © 2012 Institute of PhysicsOpen Access journalThe quantum theory of the damped harmonic os...
peer reviewedThe purpose of this study is to highlight and explain the vigorous energy transfers tha...
This work is part of a more general work concerning the energy transfer and dissipation in a system ...
We study a problem of energy exchange in a system of two coupled oscillators subject to 1 : 1 resona...
International audienceThe paper is composed of three main parts: The first part presents a two-degre...
The present paper gives an analytical perturbation theory to treat the problem of internal resonance...
peer reviewedWe study targeted energy transfer in a two degree-of-freedom damped system under the co...
The present paper gives an analytical perturbation theory to treat the problem of internal resonance...
We study targeted energy transfer (TET) [1] from a linear damped oscillator (LO) to a light attachme...
In oscillating mechanical systems, nonlinearity is responsible for the departure from proportionalit...
AbstractResonance interactions of oscillators are responsible for fundamental effects in different a...
We study the dynamics of two conservative librating oscillators with perturbations from a linear dis...
We study targeted energy transfers and nonlinear transitions in the damped dynamics of a two degree-...
Nonlinear mechanisms are frequently invoked to explain unexpected observations during processes of e...
It is shown that the classical dynamics of 1:1 resonance interaction between two identical linearly ...
Copyright © 2012 Institute of PhysicsOpen Access journalThe quantum theory of the damped harmonic os...
peer reviewedThe purpose of this study is to highlight and explain the vigorous energy transfers tha...
This work is part of a more general work concerning the energy transfer and dissipation in a system ...
We study a problem of energy exchange in a system of two coupled oscillators subject to 1 : 1 resona...
International audienceThe paper is composed of three main parts: The first part presents a two-degre...
The present paper gives an analytical perturbation theory to treat the problem of internal resonance...
peer reviewedWe study targeted energy transfer in a two degree-of-freedom damped system under the co...
The present paper gives an analytical perturbation theory to treat the problem of internal resonance...
We study targeted energy transfer (TET) [1] from a linear damped oscillator (LO) to a light attachme...
In oscillating mechanical systems, nonlinearity is responsible for the departure from proportionalit...