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6 - Hyperbolization

Published online by Cambridge University Press:  05 January 2016

Albert Marden
Affiliation:
University of Minnesota
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Summary

The focus of this chapter is the Hyperbolization Theorem for essentially compact 3-manifolds, one of the most influential mathematical discoveries of the twentieth century, and one for the ages. This theorem shows that the interiors of “most” of these 3-manifolds, in particular most knot and link complements, can be realized as kleinian manifolds. As a consequence, such 3-manifolds can be described and classified not just in terms of their topology, but more powerfully, in terms of their geometrical properties—shape and volume.

We will continue on with a presentation of the recent profound discoveries concerning the structure of closed hyperbolic manifolds. In particular, each contains infinitely many essential immersed surfaces, and has a finite-sheeted cover which fibers over the circle.

Hyperbolic manifolds that fiber over a circle

Automorphisms of surfaces

We begin by reviewing some facts about automorphisms (orientation-preserving selfhomeomorphisms) of hyperbolic surfaces, but not the 3-punctured sphere. We will continue using as basepoint a fuchsian group G and associated hyperbolic Riemann surfaces R = LHP/G, R’ = UHP/G, closed with at most a finite number of punctures. Suppose α : RR is an orientation-preserving automorphism which is not homotopic to the identity. As we learned in Section 5.5.1, the automorphism α, or rather its homotopy/isotopy class, induces an automorphism of the Bers slice B(R) ≡ Teich(R) based on R, which we also denote by α, by the action

Here J, J2 ∼ 1 is a fiber-preserving reflection of M(R) with J : RR’. The identity automorphism of R is sent to the automorphism JαJ of R’ which does not change conformal type of R’. Instead the relationship between R and R’ changes (since α is not homotopic to the identity). The group of homotopy classes of orientation-preserving automorphisms α is called the mapping class group or Teichmüller modular group. It is the group of all isometries of Teichmüller space Teich(R) in the Teichmüller metric of Section 2.8.

Pseudo-Anosov mappings

Recall from Exercise (5-12) that a pseudo-Anosov automorphism is a homeomorphism α of a surface R onto itself with these properties: (i) No power αn is homotopic to the identity; and (ii) α does not preserve the set of free homotopy classes of any system of mutually disjoint, simple geodesics on R. Such automorphisms of R are the “generic” automorphisms.

Type
Chapter
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Hyperbolic Manifolds
An Introduction in 2 and 3 Dimensions
, pp. 371 - 424
Publisher: Cambridge University Press
Print publication year: 2016

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  • Hyperbolization
  • Albert Marden, University of Minnesota
  • Book: Hyperbolic Manifolds
  • Online publication: 05 January 2016
  • Chapter DOI: https://doi.org/10.1017/CBO9781316337776.007
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  • Hyperbolization
  • Albert Marden, University of Minnesota
  • Book: Hyperbolic Manifolds
  • Online publication: 05 January 2016
  • Chapter DOI: https://doi.org/10.1017/CBO9781316337776.007
Available formats
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To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

  • Hyperbolization
  • Albert Marden, University of Minnesota
  • Book: Hyperbolic Manifolds
  • Online publication: 05 January 2016
  • Chapter DOI: https://doi.org/10.1017/CBO9781316337776.007
Available formats
×