Loop algebra

In mathematics, loop algebras are certain types of Lie algebras, of particular interest in theoretical physics.

If $g$ is a Lie algebra, the tensor product of $g$ with $C \infty (S 1)$ , the algebra of (complex) smooth functions over the circle manifold $S 1$ ,

is an infinite-dimensional Lie algebra with the Lie bracket given by

Here $g 1$ and $g 2$ are elements of $g$ and $f 1$ and $f 2$ are elements of $C \infty (S 1)$ .

This isn't precisely what would correspond to the direct product of infinitely many copies of $g$ , one for each point in $S 1$ , because of the smoothness restriction. Instead, it can be thought of in terms of smooth map from $S 1$ to $g$ ; a smooth parametrized loop in $g$ , in other words. This is why it is called the loop algebra.

Similarly, a set of all smooth maps from $S 1$ to a Lie group $G$ forms an infinite-dimensional Lie group (Lie group in the sense we can define functional derivatives over it) called the loop group. The Lie algebra of a loop group is the corresponding loop algebra.

We can take the Fourier transform on this loop algebra by defining

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