Symmetric product (topology)

In algebraic topology, the symmetric product of a topological space X consists of unordered n-tuples of distinct points in X. The infinite symmetric product is the colimit of this process, and appears in the Dold–Thom theorem.

For a topological space X, the n^th symmetric product of X is the space

that is, the orbit space given by the quotient of the n-fold product of X by the natural action of the symmetric group defined by

The infinite symmetric product SP(X) of a topological space X with given basepoint e is the quotient of the disjoint union of all powers X, X², X³, ... obtained by identifying points (x₁,...,x_n) with (x₁,...,x_n,e) and identifying any point with any other point given by permuting its coordinates. In other words its underlying set is the free commutative monoid generated by X (with unit e), and is the abelianization of the James reduced product.

The infinite symmetric product is also defined as the colimit

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