Book contents
- Frontmatter
- Contents
- Preface
- Drilling short geodesics in hyperbolic 3-manifolds
- On topologically tame Kleinian groups with bounded geometry
- An extension of the Masur domain
- Thurston's bending measure conjecture for once punctured torus groups
- Complexity of 3-manifolds
- Moduli of continuity of Cannon–Thurston maps
- Variations of McShane's identity for punctured surface groups
- Train tracks and the Gromov boundary of the complex of curves
- The pants complex has only one end
- The Weil–Petersson geometry of the five-times punctured sphere
- Convexity of geodesic-length functions: a reprise
- A proof of the Ahlfors finiteness theorem
- On the automorphic functions for Fuchsian groups of genus two
- Boundaries for two-parabolic Schottky groups
- Searching for the cusp
- Circle packings on surfaces with projective structures: a survey
- Grafting and components of quasi-fuchsian projective structures
- Computer experiments on the discreteness locus in projective structures
The pants complex has only one end
Published online by Cambridge University Press: 05 November 2011
- Frontmatter
- Contents
- Preface
- Drilling short geodesics in hyperbolic 3-manifolds
- On topologically tame Kleinian groups with bounded geometry
- An extension of the Masur domain
- Thurston's bending measure conjecture for once punctured torus groups
- Complexity of 3-manifolds
- Moduli of continuity of Cannon–Thurston maps
- Variations of McShane's identity for punctured surface groups
- Train tracks and the Gromov boundary of the complex of curves
- The pants complex has only one end
- The Weil–Petersson geometry of the five-times punctured sphere
- Convexity of geodesic-length functions: a reprise
- A proof of the Ahlfors finiteness theorem
- On the automorphic functions for Fuchsian groups of genus two
- Boundaries for two-parabolic Schottky groups
- Searching for the cusp
- Circle packings on surfaces with projective structures: a survey
- Grafting and components of quasi-fuchsian projective structures
- Computer experiments on the discreteness locus in projective structures
Summary
Definitions and statement of the main theorem
The purpose of this note is to prove the following theorem:
Theorem 4.1.Let S be a closed, connected, orientable surface with genus g(S) ≥ 3. Then the pants complex of S has only one end. In fact, there are constants K = K(S) and M = M(S) so that: if R > M, and P and Q are pants decompositions at distance greater than KR from a basepoint, then P and Q may be connected by a path which remains at least distance R from the basepoint.
A pants decomposition of S consists of 3g(S)—3 disjoint essential non-parallel simple closed curves on S. Each component of the complement of the curves is a three-holed sphere; a pants. Then the pants complex P(S) is the metric graph whose vertices are pants decompositions of S, up to isotopy. Two vertices P, P′ are connected by an edge of length one if P, P′ differ by an elementary move. In an elementary move all curves of the pants are fixed except for one curve α. Remove α and let V be the component of the complement of the remaining curves which is not a pants. Then V contains α and is either a once-holed torus or a four-holed sphere. Now α is replaced by any curve β contained in V that intersects α minimally; in the torus case once, and in the sphere case twice.
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- Spaces of Kleinian Groups , pp. 209 - 218Publisher: Cambridge University PressPrint publication year: 2006
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