Coupled Klein-Gordon equations and energy exchange in two-component systems

A system of coupled Klein-Gordon equations is proposed as a model for one-dimensional nonlinear wave processes in two-component media (e.g., long longitudinal waves in elastic bi-layers, where nonlinearity comes only from the bonding material). We discuss general properties of the model (Lie group c...

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Bibliographic Details
Main Author: Karima Khusnutdinova
Format: Default Preprint
Published: 2007
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Other mathematical sciences not elsewhere classified
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Mathematical Sciences not elsewhere classified
Online Access:https://hdl.handle.net/2134/2718
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Summary:A system of coupled Klein-Gordon equations is proposed as a model for one-dimensional nonlinear wave processes in two-component media (e.g., long longitudinal waves in elastic bi-layers, where nonlinearity comes only from the bonding material). We discuss general properties of the model (Lie group classification, conservation laws, invariant solutions) and special solutions exhibiting an energy exchange between the two physical components of the system. To study the latter, we consider the dynamics of weakly nonlinear multi-phase wavetrains within the framework of two pairs of counter-propagating waves in a system of two coupled Sine-Gordon equations, and obtain a hierarchy of asymptotically exact coupled evolution equations describing the amplitudes of the waves. We then discuss modulational instability of these weakly nonlinear solutions and its effect on the energy exchange.

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