@incollection{JEDP_1996____A7_0, author = {Nicolas Burq}, title = {Vitesse de convergence vers le r\'eel des r\'esonances}, booktitle = {}, series = {Journ\'ees \'equations aux d\'eriv\'ees partielles}, eid = {7}, pages = {1--9}, publisher = {\'Ecole polytechnique}, year = {1996}, zbl = {0885.35063}, language = {fr}, url = {https://proceedings.centre-mersenne.org/item/JEDP_1996____A7_0/} }
Nicolas Burq. Vitesse de convergence vers le réel des résonances. Journées équations aux dérivées partielles (1996), article no. 7, 9 p. https://proceedings.centre-mersenne.org/item/JEDP_1996____A7_0/
[1] C. Gérard. Asymptotique des pôles de la matrice de scattering pour deux obstacles strictement convexes. Supplément au Bulletin de la Société Mathématique de France, 116, 1988. | EuDML | Numdam | Zbl
[2] M. Ikawa. Decay of solution of the wave equation in the exterior of several convex bodies. Annales de l'Institut Fourier, 38(2):113-146, 1982. | EuDML | Numdam | MR | Zbl
[3] M. Ikawa. Decay of solution of the wave equation in the exterior of two convex bodies. Osaka Journal of Mathematics, 19:459-509, 1982. | MR | Zbl
[4] M. Ikawa. Trapping obstacles with a sequence of pôles converging to the real axis. Osaka Journal of Mathematics, 22:657-689, 1985. | MR | Zbl
[5] M. Ikawa. On the poles of the scattering matrix for two convex obstacles. Annales de l'Institut Fourier, 38:113-146, 1988.
[6] P. D. Lax and R. S. Phillips. The acoustic equation with an indefinite energy form and the schrödinger equation. J. Funct. Analysis, 1:37-83, 1967. | MR | Zbl
[7] P. D. Lax and R. S. Phillips. Scattering theory. Number 26 in Pure and Applied Mathematics. Academic Press, 2 edition, 1989. | MR | Zbl
[8] G. Lebeau. Equation des ondes amorties. A paraître à Algebraic and Geometric Methods in Mathematical Physics. Math-Physics Book Series Kluwer's. | Zbl
[9] G. Lebeau and L. Robbiano. Contrôle exact de l'équation de la chaleur. Communications in Partial Differential Equation, 20:335-356, 1995. | MR | Zbl
[10] G. Lebeau and L. Robbiano. Stabilisation de l'équation des ondes par le bord. Prépublications de l'université de Paris-Sud, 95-40, 1995.
[11] R.B. Melrose and J. Sjöstrand. Singularities of boundary value problems I. Communications in Pure Applied Mathematics, 35, 1982. | Zbl
[12] C. S. Morawetz, J. V. Ralston, and W. Strauss. Decay of solutions of the wave equation outside non-trapping obstacles. Communications in Pure and Applied Mathematics, 30:447-508, 1977. | MR | Zbl
[13] J. V. Ralston. Solutions of the wave equation with localized energy. Comm. in Pure and Applied Mathematics, 22:807-823, 1969. | MR | Zbl
[14] J. V. Ralston. Trapped rays in spherically symmetric media and poles of the scattering matrix. Comm. in Pure and Applied Mathematics, XXIV:571-582, 1971. | MR | Zbl
[15] H. F. Walker. Some remarks on the local energy decay of solution of the initial-boundary value problem for the wave equation in unbounded domains. Journal of Differential Equations, 23:459-471, 1977. | MR | Zbl
[16] G. N. Watson. Theory of Bessel functions. Cambridge University Press, second edition, 1944. | MR | Zbl