The nonlinear Klein-Gordon-Maxwell equations (NKGM) provide models for the interaction between the electromagnetic field and matter. The relevance of NKGM relies on the fact that they are the ‘‘simplest’’ gauge theory which is invariant under the group of Poincare´. These equations present the interesting phenomenon of solitons. In this paper, we show that NKGM present an Hamiltonian structure and hence they can be written as equations of the first order in t. This fact is not trivial since the Lagrangian does not depend on qtj (see section 3.3) and a suitable analysis of its structure is necessary. In the last section, we recall a recent result which states the existence of solitons by using the particular structure of the Hamiltonian.

Hamiltonian formulation of the Klein-Gordon- Maxwell equations

BENCI, VIERI;
2011-01-01

Abstract

The nonlinear Klein-Gordon-Maxwell equations (NKGM) provide models for the interaction between the electromagnetic field and matter. The relevance of NKGM relies on the fact that they are the ‘‘simplest’’ gauge theory which is invariant under the group of Poincare´. These equations present the interesting phenomenon of solitons. In this paper, we show that NKGM present an Hamiltonian structure and hence they can be written as equations of the first order in t. This fact is not trivial since the Lagrangian does not depend on qtj (see section 3.3) and a suitable analysis of its structure is necessary. In the last section, we recall a recent result which states the existence of solitons by using the particular structure of the Hamiltonian.
2011
Benci, Vieri; Fortunato, D.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11568/148937
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