Clifford-Klein space form




Representation theory



A Clifford–Klein space form is a double coset space Γ\G/H\Gamma \backslash G/H, where GG is a Lie group, HH a closed subgroup of GG, and Γ\Gamma a discrete subgroup of GG that acts properly discontinuously and freely on the homogeneous space G/HG/H.

The classical space forms are the cosets of the n-sphere S nS^n or the Cartesian space n\mathbb{R}^n or the hyperbolic space n\mathbb{H}^n by discrete subgroups of their isometry group acting properly discontinuously (Carmo 92, chapt 8).

The properly discontinuous free quotients of n-spheres by discrete groups of isometries are also called spherical space forms. The classification of these was raised as an open problem by Killing 1891 and a complete solution was finally compiled by (Wolf 74). For more on this see at group actions on n-spheres.

synthetic geometry
Euclidean geometry
hyperbolic geometry
elliptic geometry


  • Wilhelm Killing, Ueber die Clifford-Klein’schen Raumformen, Math. Ann. 39 (1891), 257–278

  • Toshiyki Koyabashi, Discontinuous Groups and Clifford—Klein Forms of Pseudo-Riemannian Homogeneous Manifolds, (pdf)

  • Joseph Wolf, Spaces of constant curvature, Publish or Perish, Boston, Third ed., 1974

  • M. P. do Carmo, Riemannian geometry, Mathematics: Theory & Applications, Birkhaeuser Boston Inc., Boston, MA, 1992, Translated from the second Portuguese edition by Francis Flaherty.

  • Ian Hambleton, Topological spherical space forms, Handbook of Group Actions (Vol. II), ALM 32 (2014), 151-172. International Press, Beijing-Boston (arXivL:1412.8187)

Last revised on August 15, 2018 at 17:18:48. See the history of this page for a list of all contributions to it.