Semibounded representations and invariant cones in infinite dimensional Lie algebras

TL;DR

This paper explores semibounded representations of infinite dimensional Lie groups, highlighting their connections to convexity, symplectic geometry, and $C^*$-algebras, with detailed examples including the Virasoro and diffeomorphism groups.

Contribution

It introduces the concept of semibounded representations in infinite dimensions and links it to invariant cones, convexity, and geometric structures, expanding understanding beyond classical finite-dimensional cases.

Findings

Semibounded representations relate to invariant cones and convexity in infinite dimensions.

Connections established between semibounded representations and $C^*$-algebras.

Detailed analysis of representations of the Virasoro and diffeomorphism groups.

Abstract

A unitary representation of a, possibly infinite dimensional, Lie group $G$ is called semi-bounded if the corresponding operators $i\dd\pi(x)$ from the derived representations are uniformly bounded from above on some non-empty open subset of the Lie algebra $\g$. In the first part of the present paper we explain how this concept leads to a fruitful interaction between the areas of infinite dimensional convexity, Lie theory, symplectic geometry (momentum maps) and complex analysis. Here open invariant cones in Lie algebras play a central role and semibounded representations have interesting connections to $C^*$-algebras which are quite different from the classical use of the group $C^*$-algebra of a finite dimensional Lie group. The second half is devoted to a detailed discussion of semibounded representations of the diffeomorphism group of the circle, the Virasoro group, the metaplectic representation on the bosonic Fock space and the spin representation on fermionic Fock space.