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Series of Faber Polynomials PDF

321 Pages·1998·48.241 MB·English
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.. · Series of Faber Polynomials P.K. Suetin Technical University of Conununication and lnjormatics Moscow, Russia Translated from the Russian by E.V Pankratiev GORDON AND BREACH SCIENCE PUBLISHERS I Australia • Ciinada • China • France • Germany • India •Japan Luxembourg • Malaysia • The Netherlands • Russia • Singapore Switzerland • Thailand • United Kingdom ANALYTICAL METHODS AND SPECIAL FUNCTIONS An International Series of Monographs in Mathe1natics EDITOR IN CHIEF: A.P. Prudnikov (Russia) ASSOCIATE EDITORS: C.P. Dunk! (USA), H.-J. Glaeske (Germany) and M Saigo Qapan) ® -. Volume 1 Series of Faber Polynomials P.K. S11etin Additional Volumes in Preparation Bessel Functions and Their Applications B.G. Korenev Hypersingular Integrals and Their Applications S.G. Samko Fourier Transforms and Approximations AM. Sedletskii ' Orthogonal Polynomials in Two Variables P.K. Suetin Inverse Problems for Differential Operators V.A. Yurko This book is part o~ a series. The publisher will accept continuation orders which may be cancelled at any time and which provide for automatic billing and shipping of each title in the series upon publi cation. Please write for details. Copyright © I 998 OPA (Overseas Publishers Association) Amsterdam B. V. Published under license under the Gordon and Breach Science Publishers imprint. All rights reserved. No part of this book may be reproduced or utilized in any fonn or by any means, electronic or mechanical, including photocopying and recording, or by any information storage or retrieval system, without permission in writing from the publisher. Printed in Singapore. Originally published in Russian in 1984 as Riad Mnogochlenov Faber by Nauka, Moscow Amsteldijk 166 lst Floor 1079 LH Amsterdam .. The Netherlands British Library Cataloguing In Publication Data Suetin, P.K. Series of Faber Polynomials -(Analytical methods and special functions; v. I) I. Polynomials I. Title 512.9'42 JSBN 90-5699-058-6 CONTENTS Pre~e ~ Preface to the English Edition xv Notation xix Chapter I. Some results of approximation theory 1 § 1. The best approximations of real functions 1 § 2. Lebesgue inequalities for Fourier and Taylor series 7 § 3. Jackson approximating sums 15 § 4. Estimates of the Fourier and Taylor coefficients 22 § 5. Analogues of the Weierstrass theorem on approximation in a complex domain 28 Chapter II. The elementary properties of Faber polynomials 33 § 1. Fundamental definitions and examples 33 § 2. Algebraic properties of Faber polynomials 39 § 3. The simplest asymptotic properties 42 § 4. Generalized Faber polynomials 44 Chapter III. Faber series with the simplest conditions 49 § 1. Faber polynomial series 49 § 2. Faber series of analytic functions 51 § 3. The direct theorem of Bernstein & Walsh 54 § 4. The inverse theorem of Bernstein & Walsh 56 Chapter IV. As;Ymptotic properties of Faber polynomials 60 § 1. Estimation of Faber polynomials inside a domain 60 § 2. Asymptotic representations outside a domain 62 § 3. Faber polynomials with singularities of the weight function 70 § 4. Faber polynomials with singularities of the contour 73 v. Chapter Convergence of Faber series inside a domain 77 § 1. Some conditions' for convergence inside a domain 77 § 2. The main theorem of Faber series 83 § 3. Expansion of Cauchy-type integrals with respect to area 86 § 4. The table of conditions for Faber series convergence 90 § 5. Generalized Faber series 93 v vi CONTENTS Chapter VI. Series of Faber polynomials 100 § 1. Conditions for convergence inside a domain 100 § 2. Boundary properties of series of Faber polynomials 103 § 3. Uniqueness of Faber polynomial series 108 § 4. Series of generalized Faber polynomials 113 Chapter Vll. Some propei-ties of Faber operators 117 § 1. The Faber operator and its simplest properties 117 § 2. Boundary properties of Faber operators 120 § 3. Estimat~s of the norms of Faber operators 123 § 4. Transformation of rational and meromorphic functions 128 § 5. Generalized Faber operators 131 Chapter VIII. Faber series in a closed domain 1?6 § 1. Domains with a strongly smooth boundary . 136 § 2. Theorem concerning the inverse Faber operator 142 § 3. Al'per's principal results 148 § 4. Another summation formula 156 § 5. Generalized Faber series in a closed domain 160 Chapter IX. Faber polynomials and the theory of univalent functions 168 § 1. The method of areas in the theory of univalent functions . 168 § 2. Lebedev's results 172 · § 3. Pommerenke's results for Faber polynomials 177 § 4. The result~ of Kova.ri & Pommerenke 184 § 5. The results of Lesley, Vinge & Warschawski 191 Chapter X. Fabe.r series in canonical domains 196 § 1. The awdliary propertie.5 of Taylor series 196 § 2. Bounded functions in a canonital domain 199 § 3. The general case of an arbitrary continuum 205 § 4. The case of poles on a level line 208 Chapter XI. Faber series and the Riemann boundary problem 214 § 1. The approximate solution of Riemann problem 214 § 2. Some properties of Faber series of the second kind 218 § 3. Faber series and generalized functions 223 § 4. Riemann problem in the class of generalized functions 230 · Chapter XII. The summation formula of Dzyadyk 233 § 1. Dzyadyk's formula for Faber series summation 2·33 § 2. Summation of the generalized Faber series 237 § 3. Summation of Faber series in a closed domain 241 § 4. Faber approximation of the Cauchy kernel 245 § 5. Nikol'skii's problem in a complex domain 248 Chapter XIII. Generalization of Faber polynomials and series 252 § 1. Faber-Walsh polynomials 252 § 2. Faber-Laurent series 255 CONTENTS vii § 3. Faber-Dz11Fbashyan rational functions 257 § 4. Basic systems of Fabcr-Erokhin 262 Chapter XIV. Some recent results 270 § l. Faber series of matrices and operators 270 § 2. Faber operators with singularities of the weight function and m ~oom § 3. Faber series with singularities of weight function and contom 276 § 4. The Faber-Dirichlet operaoor 278 § 5. The Faber series in the Dirichlet problem 280 Comments and Supplements 283 References 287 Authors Index 297 Subject Index 299 ; ' J PREFACE The classic Faber polynomials play an important role in modern approximation theory for the functions of a complex variable. Series of Faber polynomials are used for the representation of analytic functions in simply connected domains, apd many theorems on the approximation of analytic functions are proved with the qelp of these series. By their construction, the Faber series are a natural generalization of the Taylor series from a disk to a simply connected domain. In tills book the main properties of Faber polynomials and series are presented. Attention is mainly given to the asymptotic properties of the Faber polynomials and to the approximative properties of Faber series. In many cases, known results about Taylor series are carried over to Faber series. Any function f(z), analytic in the disk lz - .zol < R, can be expanded in this disk into the Taylor series =I00: 1cz) en(z - zor, (1) n=O and this series converges uniformly inside the disk lz - .zol < R, i.e. uniformly on every compact subset of thls disk. In 1885 C. Runge proved that for any function /(z), analytic in a bounded, simply connected domain G, there exists a polynomial sequence {Q n(z)}, converging to the function f(z) uniformly inside the domain G. This theorem can be considered as one of the simplest analogues of K .. Weierstrass' theorem in the case of approximation of analytic functions by polynomials. This theorem implies the representation 00 f(z) = Qo(z) + L IQn(z) -Qn-1(z)], z E G, (2) n=l and the series converges uniformly inside the domain G. In 1903 G. Faber ID7], emphasizing the ambiguity of definition of the terms of series (2), had formulated the following problem on constructing a generalization of the Taylor series (1) ,to the case of an arbitrary simply connected domain G. As with the process which associates with any disk, lz - .zol < R, the system of polynomials {(z-zor} having the prope.rty that any function f(z) analytic in this disk can be expanded in a series of these polynomials, it is required, for an arbitrary bounded, simply connected domain G, to determine a system of polynomials { ~(z)} such that any function f(z) analytic in the domain G and possibly satisfying some additional conditions, can be expanded into a series of the form E00 = f(z) an4?n(z), z E G, (3) n=O ix x PREFACE where the coefficients {an} are defined by the function /(z) and depend on the do main G. lo solving this problem, Faber considered only the case when the boundary r of the simply coM.ected domain G is a regular analytic curve; however, the polyno mials introduced by Faber, and later called the Faber polynomials, are determined uniquely for any bounded continuum with a connected complement. Let the complement of a bounded nondegenerate continuum K be a simply con nected domain D. Denote by w = 4}(z) a function mapping the domain D confor mally and univalently onto the domain lwl > 1 under the conditions <I>(oo) = oo and <I>'(oo) > 0, and let z = 1/J(w) be the inverse function. Then the sequence of Faber polynomials {wn(z)} for the continuum K is defined with the help of the generating function by the formula. Vi'(w) Lo:> <I>n(z) - (- ) - = +i , z E K, iwl > 1. {4) 'I/; w - z n=O w~ r Let G denote the set of internal points of the continuum K and let be its boundary. In Faber's first paper [D7], the case when the continuum K is the closure of a r simply connected domain G with a regular analytic boundary is considered. In this case any fun~tion f(z) analytic in the domain G can be expanded into the Faber series (3), converging absolutely and uniformly inside the domain G, and the coefficients of this expansion are determined by the formula J 1 /(()<!>'(() an = 211"i <]?n+ 1 { () d(' r,. r lwl where the curve is the inverse image of the circumference = p under the p mapping w = <P(z), and the number p < 1 is chosen such that the function 'l/;(w) is lwl analytic in the domain ~ p. In his other paper [D8] Faber proved that expansion (3) holds when the function f(z) is analytic on a bounded continuum with a connected complement. In this case series {3} converges absolutely and uniformly on the whole K. These two cases considered by Faber can be easily reduced from one to the other. The second of them is described in A.I. Markushevich's book [AlO, II]. Interesting applications of Faber polynomials were given in Faber's third paper [D9], published in 1920. Here Faber considered the properties of the Chebyshev polynomials deviating least from zero in a closed domain G, bounded by a regular r. analytic curve In this paper, for the first time, the problem concerning the best uniform approximation of analytic functions in a closed domain was stated, and with the help of series of Faber polynomials the simplest estimates of the best approximation had been found. In 1942 W. Sewell published a monograph [A21] in which the questions of ap proximation of analytic functions by polynomials were considered. In this monograph, with the help of Faber series, the direct and inverse theorems on the order of the best uniform approximation are obtained, in the case when the function f(z) is analytic in a domain G and continuous in the closed domain G, and the boundary r of the domain G is a. regular analytic curve. Under these

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