Let $H$ be an infinite dimensional separable Hilbert space and $B(H)$ the algebra of bounded operators.
**[Invariant subspace problem][1]**: Let $T \in B(H)$. Is there a non-trivial closed $T$-invariant subspace?
**Remark**: This problem is known for the Banach spaces in general, but still open for an Hilbert space.
Let $(e_{n})_{n \in \mathbb{N}}$ be an *orthonormal basis*.
**Definition** : $T \in B(H)$ is **banded** if $\exists r \in \mathbb{N}$ such that $(Te_{n}, e_{m})\ne 0 \Rightarrow \vert n-m \vert \leq r$.
**Remark**: A *banded* operator is a thick generalization of a diagonal operator. It's also a finite sum of finite product of (*orthonormal*) weighted shift operators (which check obviously the ISP).
>**Question**: Do the banded operators check the invariant subspace problem ?
**Remarks**:
- Here is a question on MSE : [Is every operator unitary equivalent to a banded operator ?][2]
N. Ozawa answered "no" in its comment below (see also sections 16.3 and 16.4 of its book [here][3]).
D. Voiculescu gave examples of quasidiagonal operators which don't generate exact $C^{*}$-algebras:
*A note on quasidiagonal operators*, Operator Theory, 1988, 265-274.
- An ISP counter-example is necessarily irreducible, but the Voiculescu examples are not irreducible, so the more relevant question is the following (MSE):
[Is every irreducible operator unitary equivalent to a banded operator?][4]
- MSE post: [Does an irreducible operator generate a nuclear $C^{∗}$-algebra?](http://math.stackexchange.com/questions/455593/does-an-irreducible-operator-generate-a-nuclear-c-algebra)
- MSE post: [Does an irreducible operator generate an exact $C^{∗}$-algebra?](http://math.stackexchange.com/questions/455949/does-an-irreducible-operator-generate-an-exact-c-algebra).
[1]: http://en.wikipedia.org/wiki/Invariant_subspace_problem
[2]: http://math.stackexchange.com/questions/452908/are-all-the-operators-thick-diagonalizable
[3]: http://www.ams.org/bookstore-getitem/item=gsm-88
[4]: http://math.stackexchange.com/questions/454135/is-every-irreducible-operator-unitary-equivalent-to-a-banded-operator