Vinberg's algorithm

In mathematics, Vinberg's algorithm is an algorithm, introduced by Ernest Borisovich Vinberg, for finding a fundamental domain of a hyperbolic reflection group.

Conway (1983) used Vinberg's algorithm to describe the automorphism group of the 26-dimensional even unimodular Lorentzian lattice II_25,1 in terms of the Leech lattice.

Description of the algorithm[edit]

Let $\Gamma <\mathrm {Isom} (\mathbb {H} ^{n})$ be a hyperbolic reflection group. Choose any point $v_{0}\in \mathbb {H} ^{n}$ ; we shall call it the basic (or initial) point. The fundamental domain $P_{0}$ of its stabilizer $\Gamma _{v_{0}}$ is a polyhedral cone in $\mathbb {H} ^{n}$ . Let $H_{1},...,H_{m}$ be the faces of this cone, and let $a_{1},...,a_{m}$ be outer normal vectors to it. Consider the half-spaces $H_{k}^{-}=\{x\in \mathbb {R} ^{n,1}|(x,a_{k})\leq 0\}.$

There exists a unique fundamental polyhedron $P$ of $\Gamma$ contained in $P_{0}$ and containing the point $v_{0}$ . Its faces containing $v_{0}$ are formed by faces $H_{1},...,H_{m}$ of the cone $P_{0}$ . The other faces $H_{m+1},...$ and the corresponding outward normals $a_{m+1},...$ are constructed by induction. Namely, for $H_{j}$ we take a mirror such that the root $a_{j}$ orthogonal to it satisfies the conditions