Harmonique analysis and Schrödinger equation associated with Dunkl trigonometric Laplacian
Analyse harmonique et équation de Schrödinger associées au laplacien de Dunkl trigonométrique
Résumé
This thesis consists of three chapters. The first one is concerned with energy properties of the wave equation associated with the trigonometric Dunkl Laplacian. We establish the conservation of the total energy, the strict equipartition of energy under suitable assumptions and the asymptotic equipartition in the general case. The second chapter, in collaboration with J.Ph. Anker and M. Sifi , shows that Opdam's functions in the rank one case satisfy a product formula. We then define and study a convolution structure related to Opdam's functions. In particular, we prove that this convolution fulfills a Kunze-Stein type phenomena. The last chapter deals with dispersive and Strichartz estimates for the linear Schrödinger equation associated with the one dimensional trigonometric Dunkl Laplacian . We establish sharp estimates for the heat kernel in complex time, and therefore for the Schrödinger kernel. We then use these estimates together with tools from chapter 2 to deduce dispersive and Strichartz inequalities for the linear Schrödinger equation and apply them to well--posedness in the nonlinear case.
l'équation de Schrödinger associée au laplacien de Dunkl trigonométrique unidimensionnel . Cette étude commence par des estimations optimales du noyau de la chaleur et de Schrödinger. A l'aide de ces résultats, ainsi que les outils d'analyse harmonique dévellopée dans le chapitre 2, on montre des éstimées de type Strichartz qui permettent de trouver des conditions d'admissibilité pour des équations de Schrödinger semi-linéaires.
Domaines
Analyse classique [math.CA]
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