Admissible orders of Jordan loops

Abstract

A commutative loop is Jordan if it satisfies the identity x2 (y x) = (x2 y) x. Using an amalgam construction and its generalizations, we prove that a nonassociative Jordan loop of order n exists if and only if n≥ 6 and n≠ 9. We also consider whether powers of elements in Jordan loops are well-defined, and we construct an infinite family of finite simple nonassociative Jordan loops.