Kleinian model

In mathematics, a Kleinian model is a model of a three-dimensional hyperbolic manifold N by the quotient space ${\displaystyle \mathbb {H} ^{3}/\Gamma }$ where ${\displaystyle \Gamma }$ is a discrete subgroup of PSL(2,C). Here, the subgroup ${\displaystyle \Gamma }$, a Kleinian group, is defined so that it is isomorphic to the fundamental group ${\displaystyle \pi _{1}(N)}$ of the surface N.^[1] Many authors use the terms Kleinian group and Kleinian model interchangeably, letting one stand for the other. The concept is named after Felix Klein.

In less technical terms, a Kleinian model it is a way of assigning coordinates to a hyperbolic manifold, or a three-dimensional space in which every point locally resembles hyperbolic space. A Kleinian model is created by taking three-dimensional hyperbolic space and treating two points as equivalent if and only if they can be reached from each other by applying a member of a group action of a Kleinian group on the space. A Kleinian group is any discrete subgroup, consisting only of isolated points, of orientation-preserving isometries of hyperbolic 3-space. The group action of a group is a set of functions on a set which, roughly speaking, have the same structure as a group.^[2]

Many properties of Kleinian models are in direct analogy to those of Fuchsian models;^[3] however, overall, the theory is less well developed. A number of unsolved conjectures on Kleinian models are the analogs to theorems on Fuchsian models.^{[citation needed]}

• Hyperbolic 3-manifold

• Matsuzaki, Katsuhiro; Taniguchi, Masahiko (1998). Hyperbolic Manifolds and Kleinian Groups. Clarendon Press. ISBN 0-19-850062-9.
• Elstrodt, Jürgen; Grunewald, Fritz; Mennicke, Jens (1997). Groups Acting on Hyperbolic Space. Springer. ISBN 3-540-62745-6.

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