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James Dudziak 
Vitushkin’s Conjecture for Removable Sets 

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Couverture du James Dudziak: Vitushkin’s Conjecture for Removable Sets (PDF)
Vitushkin’s conjecture, a special case of Painlevé’s problem, states that a compact subset of the complex plane with finite linear Hausdorff measure is removable for bounded analytic functions if and only if it intersects every rectifiable curve in a set of zero arclength measure. Chapters 1-5 of the book provide important background material on removability, analytic capacity, Hausdorff measure, arclength measure, and Garabedian duality that will appeal to many analysts with interests independent of Vitushkin’s conjecture. The fourth chapter contains a proof of Denjoy’s conjecture that employs Melnikov curvature. A brief postscript reports on a deep theorem of Tolsa and its relevance to going beyond Vitushkin’s conjecture. This text can be used for a topics course or seminar in complex analysis. To understand it, the reader should have a firm grasp of basic real and complex analysis.
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Table des matières

Preface.- 1 Removable Sets and Analytic Capacity.- 1.1 Removable Sets.- 1.2 Analytic Capacity.- 2 Removable Sets and Hausdor Measure.- 2.1 Hausdor Measure and Dimension.- 2.2 Painlevé’s Theorem.- 2.3 Frostman’s Lemma.- 2.4 Conjecture & Refutation: The Planar Cantor Quarter Set.- 3 Garabedian Duality for Hole-Punch Domains.- 3.1 Statement of the Result and an Initial Reduction.- 3.2 Interlude: Boundary Correspondence for H1(U).- 3.3 Interlude: Some F. & M. Riesz Theorems.- 3.4 Construction of the Boundary Garabedian Function.- 3.5 Construction of the Interior Garabedian Function.- 3.6 A Further Reduction.- 3.7 Interlude: Some Extension and Join Propositions.- 3.8 Analytically Extending the Ahlfors and Garabedian Functions.- 3.9 Interlude: Consequences of the Argument Principle.- 3.10 An Analytic Logarithm of the Garabedian Function.- 4 Melnikov and Verdera’s Solution to the Denjoy Conjecture.- 4.1 Menger Curvature of Point Triples.- 4.2 Melnikov’s Lower Capacity Estimate.- 4.3 Interlude: A Fourier Transform Review.- 4.4 Melnikov Curvature of Some Measures on Lipschitz Graphs.- 4.5 Arclength & Arclength Measure: Enough to Do the Job.- 4.6 The Denjoy Conjecture Resolved Affirmatively.- 4.7 Conjecture & Refutation: The Joyce-Mörters Set.- 5 Some Measure Theory.- 5.1 The Carathéodory Criterion and Metric Outer Measures.- 5.2 Arclength & Arclength Measure: The Rest of the Story.- 5.3 A Vitali Covering Lemma and Planar Lebesgue Measure.- 5.4 Regularity Properties of Hausdor Measures.- 5.5 The Besicovitch Covering Lemma and Lebesgue Points.- 6 A Solution to Vitushkin’s Conjecture Modulo Two Difficult Results.- 6.1 Statement of the Conjecture and a Reduction.- 6.2 Cauchy Integral Representation.- 6.3 Estimates of Truncated Cauchy Integrals.- 6.4 Estimates of Truncated Suppressed Cauchy Integrals.- 6.5 Vitushkin’s Conjecture Resolved Affirmatively Modulo Two Difficult Results.- 6.6 Postlude: The Original Vitushkin Conjecture.- 7 The T(b) Theorem of Nazarov, Treil, and Volberg.- 7.1 Restatement of the Result.- 7.2 Random Dyadic Lattice Construction.- 7.3 Lip(1)-Functions Attached to Random Dyadic Lattices.- 7.4 Construction of the Lip(1)-Function of the Theorem.- 7.5 The Standard Martingale Decomposition.- 7.6 Interlude: The Dyadic Carleson Imbedding Inequality.- 7.7 The Adapted Martingale Decomposition.- 7.8 Bad Squares and Their Rarity.- 7.9 The Good/Bad-Function Decomposition.- 7.10 Reduction to the Good Function Estimate.- 7.11 A Sticky Point, More Reductions, and Course Setting.- 7.12 Interlude: The Schur Test.- 7.13 G1: The Crudely Handled Terms.- 7.14 G2: The Distantly Interacting Terms.- 7.15 Splitting Up the G3 Terms.- 7.16 Gterm 3 : The Suppressed Kernel Terms.- 7.17 Gtran 3 : The Telescoping Terms.- 8 The Curvature Theorem of David and Léger.- 8.1 Restatement of the Result and an Initial Reduction.- 8.2 Two Lemmas Concerning High Density Balls.- 8.3 The Beta Numbers of Peter Jones.- 8.4 Domination of Beta Numbers by Local Curvature.- 8.5 Domination of Local Curvature by Global Curvature.- 8.6 Selection of Parameters for the Construction.- 8.7 Construction of a Baseline L0.- 8.8 De nition of a Stopping-Time Region S0.- 8.9 De nition of a Lipschitz Set K0 over the Base Line.- 8.10 Construction of Adapted Dyadic Intervals on the Base Line.- 8.11 Assigning Linear Functions to Adapted Dyadic Intervals.- 8.12 Construction of a Lipschitz Graph G Threaded through K0.- 8.13 Veri cation that the Graph is Indeed Lipschitz.- 8.14 A Partition of K n K0 into Three Sets: K1, K2, & K3.- 8.15 The Smallness of the Set K2.- 8.16 The Smallness of a Horrible Set H.- 8.17 Most of K Lies in the Vicinity of the Lipschitz Graph.- 8.18 The Smallness of the Set K1.- 8.19 Gamma Functions of the Lipschitz Graph.- 8.20 A Point Estimate on One of the Gamma Functions.- 8.21 A Global Estimate on the Other Gamma Function.- 8.22 Interlude:

A propos de l’auteur

James J. Dudziak received his Ph.D from Indiana University and is currently a visiting associate professor at Michigan State University at Lyman Briggs College. He published six excellent papers in good journals from 1984 to 1990 when he received tenure at Bucknell University.
Langue Anglais ● Format PDF ● Pages 332 ● ISBN 9781441967091 ● Taille du fichier 2.6 MB ● Maison d’édition Springer New York ● Lieu NY ● Pays US ● Publié 2011 ● Téléchargeable 24 mois ● Devise EUR ● ID 2150292 ● Protection contre la copie Adobe DRM
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