In mathematics, the surgery structure set is the basic object in the study of manifolds which are homotopy equivalent to a closed manifold X. It is a concept which helps to answer the question whether two homotopy equivalent manifolds are diffeomorphic (or PL-homeomorphic or homeomorphic). There are different versions of the structure set depending on the category (DIFF, PL or TOP) and whether Whitehead torsion is taken into account or not.

Definition

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Let X be a closed smooth (or PL- or topological) manifold of dimension n. We call two homotopy equivalences   from closed manifolds   of dimension   to   ( ) equivalent if there exists a cobordism   together with a map   such that  ,   and   are homotopy equivalences. The structure set   is the set of equivalence classes of homotopy equivalences   from closed manifolds of dimension n to X. This set has a preferred base point:  .

There is also a version which takes Whitehead torsion into account. If we require in the definition above the homotopy equivalences F,   and   to be simple homotopy equivalences then we obtain the simple structure set  .

Remarks

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Notice that   in the definition of   resp.   is an h-cobordism resp. an s-cobordism. Using the s-cobordism theorem we obtain another description for the simple structure set  , provided that n>4: The simple structure set   is the set of equivalence classes of homotopy equivalences   from closed manifolds   of dimension n to X with respect to the following equivalence relation. Two homotopy equivalences   (i=0,1) are equivalent if there exists a diffeomorphism (or PL-homeomorphism or homeomorphism)   such that   is homotopic to  .

As long as we are dealing with differential manifolds, there is in general no canonical group structure on  . If we deal with topological manifolds, it is possible to endow   with a preferred structure of an abelian group (see chapter 18 in the book of Ranicki).

Notice that a manifold M is diffeomorphic (or PL-homeomorphic or homeomorphic) to a closed manifold X if and only if there exists a simple homotopy equivalence   whose equivalence class is the base point in  . Some care is necessary because it may be possible that a given simple homotopy equivalence   is not homotopic to a diffeomorphism (or PL-homeomorphism or homeomorphism) although M and X are diffeomorphic (or PL-homeomorphic or homeomorphic). Therefore, it is also necessary to study the operation of the group of homotopy classes of simple self-equivalences of X on  .

The basic tool to compute the simple structure set is the surgery exact sequence.

Examples

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Topological Spheres: The generalized Poincaré conjecture in the topological category says that   only consists of the base point. This conjecture was proved by Smale (n > 4), Freedman (n = 4) and Perelman (n = 3).

Exotic Spheres: The classification of exotic spheres by Kervaire and Milnor gives   for n > 4 (smooth category).

References

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  • Browder, William (1972), Surgery on simply-connected manifolds, Berlin, New York: Springer-Verlag, MR 0358813
  • Ranicki, Andrew (2002), Algebraic and Geometric Surgery, Oxford Mathematical Monographs, Clarendon Press, ISBN 978-0-19-850924-0, MR 2061749
  • Wall, C. T. C. (1999), Surgery on compact manifolds, Mathematical Surveys and Monographs, vol. 69 (2nd ed.), Providence, R.I.: American Mathematical Society, ISBN 978-0-8218-0942-6, MR 1687388
  • Ranicki, Andrew (1992), Algebraic L-theory and topological manifolds (PDF), Cambridge Tracts in Mathematics 102, CUP, ISBN 0-521-42024-5, MR 1211640
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