Surgery on Simply-Connected Manifolds

Surgery on Simply-Connected Manifolds

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Description

This book is an exposition of the technique of surgery on simply-connected smooth manifolds. Systematic study of differentiable manifolds using these ideas was begun by Milnor [45] and Wallace [68] and developed extensively in the last ten years. It is now possible to give a reasonably complete theory of simply-connected manifolds of dimension ~ 5 using this approach and that is what I will try to begin here. The emphasis has been placed on stating and proving the general results necessary to apply this method in various contexts. In Chapter II, these results are stated, and then applications are given to characterizing the homotopy type of differentiable manifolds and classifying manifolds within a given homotopy type. This theory was first extensively developed in Kervaire and Milnor [34] in the case of homotopy spheres, globalized by S. P. Novikov [49] and the author [6] for closed 1-connected manifolds, and extended to the bounded case by Wall [65] and Golo [23]. The thesis of Sullivan [62] reformed the theory in an elegant way in terms of classifying spaces.
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Product details

  • Paperback | 134 pages
  • 152.4 x 228.6 x 8.13mm | 226g
  • Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Berlin, Germany
  • English
  • Softcover reprint of the original 1st ed. 1972
  • 1 Illustrations, black and white; X, 134 p. 1 illus.
  • 3642500226
  • 9783642500220

Table of contents

I. Poincare Duality.- 1. Slant Operations, Cup and Cap Products.- 2. Poincare Duality.- 3. Poincare Pairs and Triads; Sums of Poincare Pairs and Maps.- 4. The Spivak Normal Fibre Space.- II. The Main Results of Surgery.- 1. The Main Technical Results.- 2. Transversality and Normal Cobordism.- 3. Homotopy Types of Smooth Manifolds and Classification.- 4. Reinterpretation Using the Spivak Normal Fibre Space.- III. The Invariant ?.- 1. Quadratic Forms over ? and ?2.- 2. The Invariant I(f), (index).- 3. Normal Maps, Wu Classes, and the Definition of ? for m = 4l.- 4. The Invariant c(f, b) (Kervaire invariant).- 5. Product Formulas.- IV. Surgery and the Fundamental Theorem.- 1. Elementary Surgery and the Group SO(n).- 2. The Fundamental Theorem: Preliminaries.- 3. Proof of the Fundamental Theorem for m odd.- 4. Proof of the Fundamental Theorem for m even.- V. Plumbing.- 1. Intersection.- 2. Plumbing Disk Bundles.
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