Noncommutative Jordan algebra

In algebra, a noncommutative Jordan algebra is an algebra, usually over a field of characteristic not 2, such that the four operations of left and right multiplication by x and x2 all commute with each other. Examples include associative algebras and Jordan algebras.

Over fields of characteristic not 2, noncommutative Jordan algebras are the same as flexible Jordan-admissible algebras,[1] where a Jordan-admissible algebra, introduced by Albert (1948) and named after Pascual Jordan, is a (possibly non-associative) algebra that becomes a Jordan algebra under the product a  b = ab + ba.

See also

References

  1. Okubo 1995, pp. 19,84
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