Mode coupling

In the term mode coupling, as used in physics and electrical engineering, the word 'mode' refers to eigenmodes of an idealized, 'unperturbed', linear system. The superposition principle says that eigenmodes of linear systems are independent of each other: it is possible to excite or to annihilate a specific mode without influencing any other mode; there is no dissipation. In most real systems, however, there is at least some perturbation that causes energy transfer between different modes. This perturbation, interpreted as an interaction between the modes, is what is called 'mode coupling'. In the term mode coupling, as used in physics and electrical engineering, the word 'mode' refers to eigenmodes of an idealized, 'unperturbed', linear system. The superposition principle says that eigenmodes of linear systems are independent of each other: it is possible to excite or to annihilate a specific mode without influencing any other mode; there is no dissipation. In most real systems, however, there is at least some perturbation that causes energy transfer between different modes. This perturbation, interpreted as an interaction between the modes, is what is called 'mode coupling'.