Composite asymptotic expansions / Augustin Fruchard, Reinhard Schäfke
Type de document : MonographieCollection : Lecture notes in mathematics, 2066Langue : anglais.Pays: Allemagne.Éditeur : Berlin : Springer, cop. 2013Description : 1 vol. (X-161 p.) : fig. ; 24 cmISBN: 9783642340345.ISSN: 0075-8434.Bibliographie : Bibliogr. p. 155-157. Index.Sujet MSC : 34-02, Research exposition (monographs, survey articles) pertaining to ordinary differential equations34Exx, Ordinary differential equations - Asymptotic theory
34M30, Ordinary differential equations in the complex domain, Asymptotics and summation methods
34M60, Ordinary differential equations in the complex domain, Singular perturbation problems (complex WKB, turning points, steepest descent)
41A60, Approximations and expansions, Asymptotic approximations, asymptotic expansions (steepest descent, etc.)En-ligne : Springerlink | Zentralblatt | MathSciNet
| Item type | Current library | Call number | Status | Date due | Barcode |
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Bibliogr. p. 155-157. Index
The purpose of these lecture notes is to develop a theory of asymptotic expansions for functions involving two variables, while at the same time using functions involving one variable and functions of the quotient of these two variables. Such composite asymptotic expansions (CAsEs) are particularly well-suited to describing solutions of singularly perturbed ordinary differential equations near turning points. CAsEs imply inner and outer expansions near turning points. Thus our approach is closely related to the method of matched asymptotic expansions. CAsEs offer two unique advantages, however. First, they provide uniform expansions near a turning point and away from it. Second, a Gevrey version of CAsEs is available and detailed in the lecture notes. Three problems are presented in which CAsEs are useful. The first application concerns canard solutions near a multiple turning point. The second application concerns so-called non-smooth or angular canard solutions. Finally an Ackerberg-O’Malley resonance problem is solved. (Springer)
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