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The Stokes Phenomenon And Hilbert's 16th Problem

Author: B L J Braaksma

Publisher: World Scientific

Published: 1996-05-06

Total Pages: 342

ISBN-13: 9814548081

The 16th Problem of Hilbert is one of the most famous remaining unsolved problems of mathematics. It concerns whether a polynomial vector field on the plane has a finite number of limit cycles. There is a strong connection with divergent solutions of differential equations, where a central role is played by the Stokes Phenomenon, the change in asymptotic behaviour of the solutions in different sectors of the complex plane.The contributions to these proceedings survey both of these themes, including historical and modern theoretical points of view. Topics covered include the Riemann-Hilbert problem, Painleve equations, nonlinear Stokes phenomena, and the inverse Galois problem.

The Stokes Phenomenon and Hilbert's 16th Problem

Author: Boele Lieuwe Jan Braaksma

Publisher:

Published: 1996

Total Pages: 342

ISBN-13: 9789814531412

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Differential Equations And The Stokes Phenomenon

Author: B L J Braaksma

Publisher: World Scientific

Published: 2002-12-10

Total Pages: 343

ISBN-13: 9814487430

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This volume is the record of a workshop on differential equations and the Stokes phenomenon, held in May 2001 at the University of Groningen. It contains expanded versions of most of the lectures given at the workshop. To a large extent, both the workshop and the book may be regarded as a sequel to a conference held in Groningen in 1995 which resulted in the book The Stokes Phenomenon and Hilbert's 16th Problem (B L J Braaksma, G K Immink and M van der Put, editors), also published by World Scientific (1996).Both books offer a snapshot concerning the state of the art in the areas of differential, difference and q-difference equations. Apart from the asymptotics of solutions, Painlevé properties and the algebraic theory, new topics addressed in the second book include arithmetic theory of linear equations, and Galois theory and Lie symmetries of nonlinear differential equations.

Proceedings of the Conference on Differential Equations and the Stokes Phenomenon

Author: Boele Lieuwe Jan Braaksma

Publisher: World Scientific

Published: 2002

Total Pages: 352

ISBN-13: 9789812381729

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Offers a snapshot concerning the state of the art in the areas of differential, difference and q-difference equations.

Planar Dynamical Systems

Author: Yirong Liu

Publisher: Walter de Gruyter GmbH & Co KG

Published: 2014-10-29

Total Pages: 464

ISBN-13: 3110389142

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In 2008, November 23-28, the workshop of ”Classical Problems on Planar Polynomial Vector Fields ” was held in the Banff International Research Station, Canada. Called "classical problems", it was concerned with the following: (1) Problems on integrability of planar polynomial vector fields. (2) The problem of the center stated by Poincaré for real polynomial differential systems, which asks us to recognize when a planar vector field defined by polynomials of degree at most n possesses a singularity which is a center. (3) Global geometry of specific classes of planar polynomial vector fields. (4) Hilbert’s 16th problem. These problems had been posed more than 110 years ago. Therefore, they are called "classical problems" in the studies of the theory of dynamical systems. The qualitative theory and stability theory of differential equations, created by Poincaré and Lyapunov at the end of the 19th century, had major developments as two branches of the theory of dynamical systems during the 20th century. As a part of the basic theory of nonlinear science, it is one of the very active areas in the new millennium. This book presents in an elementary way the recent significant developments in the qualitative theory of planar dynamical systems. The subjects are covered as follows: the studies of center and isochronous center problems, multiple Hopf bifurcations and local and global bifurcations of the equivariant planar vector fields which concern with Hilbert’s 16th problem. The book is intended for graduate students, post-doctors and researchers in dynamical systems. For all engineers who are interested in the theory of dynamical systems, it is also a reasonable reference. It requires a minimum background of a one-year course on nonlinear differential equations.

Concerning the Hilbert 16th Problem

Author: S. Yakovenko

Publisher: American Mathematical Soc.

Published: 1995

Total Pages: 244

ISBN-13: 9780821803622

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Normal Forms, Bifurcations and Finiteness Problems in Differential Equations

Author: Christiane Rousseau

Publisher: Springer Science & Business Media

Published: 2004-02-29

Total Pages: 548

ISBN-13: 9781402019296

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Proceedings of the Nato Advanced Study Institute, held in Montreal, Canada, from 8 to 19 July 2002

MathPhys Odyssey 2001

Author: Masaki Kashiwara

Publisher: Springer Science & Business Media

Published: 2002-05-24

Total Pages: 506

ISBN-13: 9780817642600

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'MathPhys Odyssey 2001' will serve as an excellent reference text for mathematical physicists and graduate students in a number of areas.; Kashiwara/Miwa have a good track record with both SV and Birkhauser.

Handbook of Geometry and Topology of Singularities VI: Foliations

Author: Felipe Cano

Publisher: Springer Nature

Published:

Total Pages: 500

ISBN-13: 3031541723

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Painlevé Transcendents

Author: Athanassios S. Fokas

Publisher: American Mathematical Society

Published: 2023-11-20

Total Pages: 570

ISBN-13: 1470475561

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At the turn of the twentieth century, the French mathematician Paul Painlevé and his students classified second order nonlinear ordinary differential equations with the property that the location of possible branch points and essential singularities of their solutions does not depend on initial conditions. It turned out that there are only six such equations (up to natural equivalence), which later became known as Painlevé I–VI. Although these equations were initially obtained answering a strictly mathematical question, they appeared later in an astonishing (and growing) range of applications, including, e.g., statistical physics, fluid mechanics, random matrices, and orthogonal polynomials. Actually, it is now becoming clear that the Painlevé transcendents (i.e., the solutions of the Painlevé equations) play the same role in nonlinear mathematical physics that the classical special functions, such as Airy and Bessel functions, play in linear physics. The explicit formulas relating the asymptotic behaviour of the classical special functions at different critical points play a crucial role in the applications of these functions. It is shown in this book that even though the six Painlevé equations are nonlinear, it is still possible, using a new technique called the Riemann-Hilbert formalism, to obtain analogous explicit formulas for the Painlevé transcendents. This striking fact, apparently unknown to Painlevé and his contemporaries, is the key ingredient for the remarkable applicability of these “nonlinear special functions”. The book describes in detail the Riemann-Hilbert method and emphasizes its close connection to classical monodromy theory of linear equations as well as to modern theory of integrable systems. In addition, the book contains an ample collection of material concerning the asymptotics of the Painlevé functions and their various applications, which makes it a good reference source for everyone working in the theory and applications of Painlevé equations and related areas.