Associator

In abstract algebra, the term associator is used in different ways as a measure of the nonassociativity of an algebraic structure.

Ring theory

For a nonassociative ring or algebra ${\displaystyle R}$, the associator is the multilinear map ${\displaystyle [\cdot ,\cdot ,\cdot ]:R\times R\times R\to R}$ given by

${\displaystyle [x,y,z]=(xy)z-x(yz).\,}$

Just as the commutator measures the degree of noncommutativity, the associator measures the degree of nonassociativity of ${\displaystyle R}$. It is identically zero for an associative ring or algebra.

The associator in any ring obeys the identity

${\displaystyle w[x,y,z]+[w,x,y]z=[wx,y,z]-[w,xy,z]+[w,x,yz].\,}$

The associator is alternating precisely when ${\displaystyle R}$ is an alternative ring.

The associator is symmetric in its two rightmost arguments when ${\displaystyle R}$ is a pre-Lie algebra.

The nucleus is the set of elements that associate with all others: that is, the n in R such that

${\displaystyle [n,R,R]=[R,n,R]=[R,R,n]=\{0\}\ .}$

It turns out that any two of ${\displaystyle ([n,R,R],[R,n,R],[R,R,n])}$ being ${\displaystyle \{0\}}$ implies that the third is also the zero set.

Quasigroup theory

A quasigroup Q is a set with a binary operation ${\displaystyle \cdot :Q\times Q\to Q}$ such that for each a,b in Q, the equations ${\displaystyle a\cdot x=b}$ and ${\displaystyle y\cdot a=b}$ have unique solutions x,y in Q. In a quasigroup Q, the associator is the map ${\displaystyle (\cdot ,\cdot ,\cdot ):Q\times Q\times Q\to Q}$ defined by the equation

${\displaystyle (a\cdot b)\cdot c=(a\cdot (b\cdot c))\cdot (a,b,c)}$

for all a,b,c in Q. As with its ring theory analog, the quasigroup associator is a measure of nonassociativity of Q.

Higher-dimensional algebra

In higher-dimensional algebra, where there may be non-identity morphisms between algebraic expressions, an associator is an isomorphism

${\displaystyle a_{x,y,z}:(xy)z\mapsto x(yz).}$

Category theory

In category theory, the associator expresses the associative properties of the internal product functor in monoidal categories.

See also

• Commutator
• Non-associative algebra
• Quasi-bialgebra – discusses the Drinfeld associator

References

• Bremner and Hentzel. "Identities for the Associator in Alternative Algebras" (PDF).
• Schafer, Richard D. (1995) [1966]. An Introduction to Nonassociative Algebras. Dover. ISBN 0-486-68813-5.