Griess algebra

From Wikipedia, the free encyclopedia
(Redirected from Greiss algebra)

In mathematics, the Griess algebra is a commutative non-associative algebra on a real vector space of dimension 196884 that has the Monster group M as its automorphism group. It is named after mathematician R. L. Griess, who constructed it in 1980 and subsequently used it in 1982 to construct M. The Monster fixes (vectorwise) a 1-space in this algebra and acts absolutely irreducibly on the 196883-dimensional orthogonal complement of this 1-space. (The Monster preserves the standard inner product on the 196884-space.)

Griess's construction was later simplified by Jacques Tits and John H. Conway.

The Griess algebra is the same as the degree 2 piece of the monster vertex algebra, and the Griess product is one of the vertex algebra products.

References[edit]

  • Conway, John Horton (1985), "A simple construction for the Fischer-Griess monster group", Inventiones Mathematicae, 79 (3): 513–540, doi:10.1007/BF01388521, ISSN 0020-9910, MR 0782233
  • R. L. Griess Jr, The Friendly Giant, Inventiones Mathematicae 69 (1982), 1-102