Abstract
This paper concerns the orbital stability for exact solitary waves of the Generalized Klein-Gordon-Schrod-inger equations. Since the abstract results of Grillakis et al[1-2] can not be applied directly, we can extend the abstract stability theory and use the detailed spectral analysis to obtain the stability of the solitary waves.
Highlights
In this paper, we consider the the stability for the exact solitary waves of the Generalized Klein-Gordon-Schrödinger equations i t xx p p 2 tt xx M 2 p p 2 x R (1.1)which describe a classical model of interaction of nucleon field with a meson field [3]
This paper concerns the orbital stability for exact solitary waves of the Generalized Klein-Gordon-Schrödinger equations
Since the abstract results of Grillakis et al [1,2] can not be applied directly, we can extend the abstract stability theory and use the detailed spectral analysis to obtain the stability of the solitary waves
Summary
This paper concerns the orbital stability for exact solitary waves of the Generalized Klein-Gordon-Schrödinger equations. Since the abstract results of Grillakis et al [1,2] can not be applied directly, we can extend the abstract stability theory and use the detailed spectral analysis to obtain the stability of the solitary waves. We consider the the stability for the exact solitary waves of the Generalized Klein-Gordon-Schrödinger equations By applying the abstract stability theory and detailed spectral analysis in [4,5,6], we obtain the orbital stability of the solitary waves.
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