This paper introduces a new model for the classical Huygens' experiment on synchronization of two pendulum clocks hanging from a wooden coupling structure. The dynamics of the coupling - a beam with supporting structure - is modelled in detail using the Finite Element method. The pendula are considered as single dof systems, i.e. local nonlinearities including the escapement. Consequently, the resulting coupled model consists of a finite set of nonlinear ordinary differential equations. Then, the existence of synchronous motion in the system is analytically investigated. Furthermore, this model is used in order to obtain numerical results illustrating the possible limit behaviour of the system. Besides in-phase and anti-phase synchronizatio...
In this experimental study, the synchronized mo-tion observed in pairs of nonlinear oscillators coup...
The spontaneous synchronisation of coupled non-linear oscillators is a recurring research topic in s...
\u3cp\u3eThe paper presents a numerical and experimental study of a setup which mimics the famous ‘s...
This paper introduces a new model for the classical Huygens' experiment on synchronization of two pe...
A simplified model of the classical Huygens' experiment on synchronization of pendulum clocks is exa...
This paper introduces a modern version of the classical Huygens' experiment on synchronization of pe...
This paper introduces a modern version of the classical Huygens' experiment on synchronization of pe...
In this paper, the occurrence of synchronization in pairs of weakly nonlinear selfsustained oscillat...
In this experimental study, phase synchronization is studied in pairs of nonlinear oscillators coupl...
Christiaan Huygens, in the 1600s, discovered the synchronization of coupled pendulums while consider...
In 1665, Huygens observed that two identical pendulum clocks, weakly coupled through a heavy beam, s...
Synchronization is one of the most deeply rooted and pervasive behaviours in nature. It extends from...
In this paper we study a phenomena observed in the seventeenth century by Christiaan Huygens. He fo...
In this experimental study, the synchronized motion observed in pairs of nonlinear oscillators coupl...
In this experimental study, the synchronized mo-tion observed in pairs of nonlinear oscillators coup...
The spontaneous synchronisation of coupled non-linear oscillators is a recurring research topic in s...
\u3cp\u3eThe paper presents a numerical and experimental study of a setup which mimics the famous ‘s...
This paper introduces a new model for the classical Huygens' experiment on synchronization of two pe...
A simplified model of the classical Huygens' experiment on synchronization of pendulum clocks is exa...
This paper introduces a modern version of the classical Huygens' experiment on synchronization of pe...
This paper introduces a modern version of the classical Huygens' experiment on synchronization of pe...
In this paper, the occurrence of synchronization in pairs of weakly nonlinear selfsustained oscillat...
In this experimental study, phase synchronization is studied in pairs of nonlinear oscillators coupl...
Christiaan Huygens, in the 1600s, discovered the synchronization of coupled pendulums while consider...
In 1665, Huygens observed that two identical pendulum clocks, weakly coupled through a heavy beam, s...
Synchronization is one of the most deeply rooted and pervasive behaviours in nature. It extends from...
In this paper we study a phenomena observed in the seventeenth century by Christiaan Huygens. He fo...
In this experimental study, the synchronized motion observed in pairs of nonlinear oscillators coupl...
In this experimental study, the synchronized mo-tion observed in pairs of nonlinear oscillators coup...
The spontaneous synchronisation of coupled non-linear oscillators is a recurring research topic in s...
\u3cp\u3eThe paper presents a numerical and experimental study of a setup which mimics the famous ‘s...