Loop group

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In mathematics, a loop group is a group of loops in a topological group G with multiplication defined pointwise. Specifically, let $L G$ denote the space of continuous maps $S^1 \to G$ equipped with the compact-open topology. An element of $L G$ is called a loop in G. Pointwise multiplication of such loops gives $L G$ the structure of a topological group. The space $L G$ is called the free loop group on $G$ . A loop group is any subgroup of the free loop group $L G$ .

An important example of a loop group is the group $Ω G$ of based loops on $G$ . It is defined to be the kernel of the evaluation map $e_1: LG \to G$ , and hence is a closed normal subgroup of $L G$ . (Here, $e 1$ is the map that sends a loop to its value at $1$ .) Note that we may embed $G$ into $L G$ as the subgroup of constant loops. Consequently, we arrive at a split exact sequence $1\to \Omega G \to LG \to G\to 1$ . The space $L G$ splits as a semi-direct product, $LG = \Omega G \ltimes G$ .

We may also think of $Ω G$ as the loop space on $G$ . From this point of view, $Ω G$ is an H-space with respect to concatenation of loops. On the face of it, this seems to provide $Ω G$ with two very different product maps. However, it can be shown that concatenation and pointwise multiplication are homotopic. Thus, in terms of the homotopy theory of $Ω G$ , these maps are interchangeable.

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Categories: Topological groups

Loop group

From Wikipedia, the free encyclopedia

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