Supercommutative algebra

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In mathematics, a supercommutative algebra is a superalgebra (i.e. a Z₂-graded algebra) such that for any two homogeneous elements x, y we have

$yx = (-1)^{|x||y|}xy.\,$

Equivalently, it is a superalgebra where the supercommutator

$[x,y] = xy - (-1)^{|x||y|}yx\,$

always vanishes. Algebraic structures which supercommute in the above sense are sometimes referred to as graded-commutative or, if the supercommutativity is understood, simply commutative.

Any commutative algebra is a supercommutative algebra if given the trivial gradation (i.e. all elements are even). Grassmann algebras (also known as exterior algebras) are the most common examples of nontrivial supercommutative algebras. The supercenter of any superalgebra is the set of elements that supercommute with all elements, and is a supercommutative algebra.

The even subalgebra of a supercommutative algebra is always a commutative algebra. That is, even elements always commute. Odd elements, on the other hand, always anticommute. That is,

$xy + yx = 0,\quad 2x^2=0$

for odd x and y. In particular, the square of any odd element always vanishes whenever 2 is invertible. Thus a commutative superalgebra usually contains nilpotent elements.

Categories: Abstract algebra | Super linear algebra

Supercommutative algebra

From Wikipedia, the free encyclopedia

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