English

Quaternionic Hyperbolic Fenchel-Nielsen Coordinates

Geometric Topology 2018-03-06 v3

Abstract

Let Sp(2,1)Sp(2,1) be the isometry group of the quaternionic hyperbolic plane HH2{{\bf H}_{\mathbb H}}^2. An element gg in Sp(2,1)Sp(2,1) is `hyperbolic' if it fixes exactly two points on the boundary of HH2{{\bf H}_{\mathbb H}}^2. We classify pairs of hyperbolic elements in Sp(2,1)Sp(2,1) up to conjugation. A hyperbolic element of Sp(2,1)Sp(2,1) is called `loxodromic' if it has no real eigenvalue. We show that the set of Sp(2,1)Sp(2,1) conjugation orbits of irreducible loxodromic pairs is a (CP1)4(\mathbb C {\mathbb P}^1)^4-bundle over a topological space that is locally a semi-analytic subspace of R13{\mathbb R}^{13}. We use the above classification to show that conjugation orbits of `geometric' representations of a closed surface group (of genus g2g \geq 2) into Sp(2,1)Sp(2,1) can be determined by a system of 42g4242g-42 real parameters. Further, we consider the groups Sp(1,1)Sp(1,1) and GL(2,H)GL(2, {\mathbb H}). These groups also act by the orientation-preserving isometries of the four and five dimensional real hyperbolic spaces respectively. We classify conjugation orbits of pairs of hyperbolic elements in these groups. These classifications determine conjugation orbits of `geometric' surface group representations into these groups.

Keywords

Cite

@article{arxiv.1708.06044,
  title  = {Quaternionic Hyperbolic Fenchel-Nielsen Coordinates},
  author = {Krishnendu Gongopadhyay and Sagar B. Kalane},
  journal= {arXiv preprint arXiv:1708.06044},
  year   = {2018}
}

Comments

major structural revision. Restructured the exposition. Introduction re-written

R2 v1 2026-06-22T21:19:03.753Z