Akivis algebra explained
In mathematics, and in particular the study of algebra, an Akivis algebra is a nonassociative algebra equipped with a binary operator, the commutator
and a ternary operator, the associator
that satisfy a particular relationship known as the Akivis identity. They are named in honour of Russian mathematician Maks A. Akivis.
Formally, if
is a
vector space over a field
of
characteristic zero, we say
is an akivis algebra if the operation
\left(x,y\right)\mapsto\left[x,y\right]
is bilinear and
anticommutative; and the trilinear operator
\left(x,y,z\right)\mapsto\left[x,y,z\right]
satisfies the
Akivis identity:
\left[\left[x,y\right],z\right]+
\left[\left[y,z\right],x\right]+
\left[\left[z,x\right],y\right]=
\left[x,y,z\right]+
\left[y,z,x\right]+
\left[z,x,y\right]-
\left[x,z,y\right]-
\left[y,x,z\right]-
\left[z,y,x\right].
An Akivis algebra with
is a
Lie algebra, for the Akivis identity reduces to the
Jacobi identity. Note that the terms on the right hand side have positive sign for even permutations and negative sign for odd permutations of
.
Any algebra (even if nonassociative) is an Akivis algebra if we define
and
\left[x,y,z\right]=(xy)z-x(yz)
. It is known that all Akivis algebras may be represented as a subalgebra of a (possibly nonassociative) algebra in this way (for associative algebras, the associator is identically zero, and the Akivis identity reduces to the Jacobi identity).
References
- M. R. Bremner, I. R. Hentzel, and L. A. Peresi 2005. "Dimension formulas for the free nonassociative algebra". Communications in Algebra 33:4063-4081.
