We address two aspects of the dynamics of the forced Duffing oscillator which are relevant to the technology of micromechanical devices and, at the same time, have intrinsic significance to the field of nonlinear oscillating systems. First, we study the stability of periodic motion when the phase shift between the external force and the oscillation is controlled – contrary to the standard case, where the control parameter is the frequency of the force. Phase-shift control is the operational configuration under which self-sustained oscillators – and, in particular, micromechanical oscillators – provide a frequency reference useful for time keeping. We show that, contrary t...
Even though synchronization in autonomous systems has been observed for over three centuries, report...
Abstract We numerically analyze the response to noise of a system formed by two coupled mechanical o...
Synchronization phenomenon first discovered in Huygens’ clock shows that the rhythms of oscillating ...
We study the dynamics of a mechanical oscillator with linear and cubic forces – the Duffing oscillat...
We analyze the stability of synchronized periodic motion for two coupled oscillators, representing t...
We explore the dynamics of a periodically driven Duffing resonator coupled elastically to a van der ...
International audienceIn contrast to the well-known phenomenon of frequency stabilization in a synch...
International audienceIn oscillating mechanical systems, nonlinearity is responsible for the departu...
In oscillating mechanical systems, nonlinearity is responsible for the departure from proportionalit...
We explore the dynamics of a periodically driven Duffing resonator coupled elastically to a van der ...
. This work is concerned with Duffing-type oscillators that have an amplitude-independent frequency/...
The book introduces possibly the most compact, simple and physically understandable tool that can de...
The goal of this research is to explore criteria sufficient to produce oscillations, sample some dyn...
The trivial equilibrium of a van der Pol-Duffing oscillator under a linear-plus-nonlinear feedback c...
The effect of a strictly dissipative force (velocity to the pth power model) on the response and bif...
Even though synchronization in autonomous systems has been observed for over three centuries, report...
Abstract We numerically analyze the response to noise of a system formed by two coupled mechanical o...
Synchronization phenomenon first discovered in Huygens’ clock shows that the rhythms of oscillating ...
We study the dynamics of a mechanical oscillator with linear and cubic forces – the Duffing oscillat...
We analyze the stability of synchronized periodic motion for two coupled oscillators, representing t...
We explore the dynamics of a periodically driven Duffing resonator coupled elastically to a van der ...
International audienceIn contrast to the well-known phenomenon of frequency stabilization in a synch...
International audienceIn oscillating mechanical systems, nonlinearity is responsible for the departu...
In oscillating mechanical systems, nonlinearity is responsible for the departure from proportionalit...
We explore the dynamics of a periodically driven Duffing resonator coupled elastically to a van der ...
. This work is concerned with Duffing-type oscillators that have an amplitude-independent frequency/...
The book introduces possibly the most compact, simple and physically understandable tool that can de...
The goal of this research is to explore criteria sufficient to produce oscillations, sample some dyn...
The trivial equilibrium of a van der Pol-Duffing oscillator under a linear-plus-nonlinear feedback c...
The effect of a strictly dissipative force (velocity to the pth power model) on the response and bif...
Even though synchronization in autonomous systems has been observed for over three centuries, report...
Abstract We numerically analyze the response to noise of a system formed by two coupled mechanical o...
Synchronization phenomenon first discovered in Huygens’ clock shows that the rhythms of oscillating ...