Aleksey Gudimenko
ul. Radio 7, Vladivostok, 690041 Russia
Institute for Applied Mathematics, Far Eastern Branch, Russian Academy of Sciences
Publications:
Gudimenko A. I., Lihosherstov A. V.
On the Phenomenon of Low-Frequency, Large-Amplitude Oscillations in a High-Dimensional Linear Dynamical System
2024, Vol. 20, no. 2, pp. 259-276
Abstract
This article considers a linear dynamic system that models a chain of coupled harmonic
oscillators, under special boundary conditions that ensure a balanced energy flow from one end
of the chain to the other. The energy conductivity of the chain is controlled by the parameter $\alpha$
of the system.
In a numerical experiment on this system, with a large number of oscillators and at certain
values of $\alpha$, the phenomenon of low-frequency high-amplitude oscillations was discovered. The
primary analysis showed that this phenomenon has much in common with self-oscillations in
nonlinear systems. In both cases, periodic motion is created and maintained by an internal
energy source that does not have the corresponding periodicity. In addition, the amplitude
of the oscillations significantly exceeds the initial state amplitude. However, this phenomenon
also has a fundamental difference from self-oscillations in that it is controlled by the oscillation
synchronization mechanism in linear systems and not by the exponential instability suppression
mechanism in nonlinear systems.
This article provides an explanation of the observed phenomenon on the basis of a complete
analytical solution of the system. The solution is constructed in a standard way by reducing the
dynamic problem to the problem of eigenvalues and eigenvectors for the system matrix. When
solving, we use methods from the theory of orthogonal polynomials. In addition, we discuss two
physical interpretations of the system. The connection between these interpretations and the
system is established through the Schrödinger variables.
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