Von Neumann double commutant theorem

In mathematics, specifically functional analysis, the von Neumann bicommutant theorem relates the closure of a set of bounded operators on a Hilbert space in certain topologies to the bicommutant of that set. In essence, it is a connection between the algebraic and topological sides of operator theory.

The formal statement of the theorem is as follows:

There are several other topologies on the space of bounded operators, and one can ask what are the *-algebras closed in these topologies. If $M$ is closed in the norm topology then it is a C*-algebra, but not necessarily a von Neumann algebra. One such example is the C*-algebra of compact operators (on an infinite dimensional Hilbert space). For most other common topologies the closed *-algebras containing 1 are still von Neumann algebras; this applies in particular to the weak operator, strong operator, *-strong operator, ultraweak, ultrastrong, and *-ultrastrong topologies.

It is related to the Jacobson density theorem.

Let $H$ be a Hilbert space and $L (H)$ the bounded operators on $H$ . Consider a self-adjoint unital subalgebra $M$ of $L (H)$ . (this means that $M$ contains the adjoints of its members, and the identity operator on $H$ )

The theorem is equivalent to the combination of the following three statements:

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