Kadison transitivity theorem

In mathematics, Kadison transitivity theorem is a result in the theory of C*-algebras that, in effect, asserts the equivalence of the notions of topological irreducibility and algebraic irreducibility of representations of C*-algebras. It implies that, for irreducible representations of C*-algebras, the only linear invariant manifold is the whole space.

The theorem, proved by Richard Kadison, was surprising as a priori there is no reason to believe that all topologically irreducible representations are also algebraically irreducible.

Theorem. If the C*-algebra ${\displaystyle {\mathfrak {A}}}$ acts topologically irreducibly on the Hilbert space ${\displaystyle {\mathcal {H}},\{y_{1},\cdots ,y_{n}\}}$ is a set of vectors and ${\displaystyle \{x_{1},\cdots ,x_{n}\}}$ is a linearly independent set of vectors in ${\displaystyle {\mathcal {H}}}$, there is an ${\displaystyle A}$ in ${\displaystyle {\mathfrak {A}}}$ such that ${\displaystyle Ax_{j}=y_{j}}$. If ${\displaystyle Bx_{j}=y_{j}}$ for some self-adjoint operator ${\displaystyle B}$, then ${\displaystyle A}$ can be chosen self-adjoint.

• Kadison, R.V.; Ringrose J.R., Fundamentals of the Theory of Operator Algebras, Vol. I : Elementary Theory, ISBN-13: 978-0821808191