Operator ideal

In functional analysis, a branch of mathematics, an operator ideal is a special kind of class of continuous linear operators between Banach spaces. If an operator T belongs to an operator ideal \mathcal{J}, then for any operators A and B which can be composed with T as BTA, then BTA is class \mathcal{J} as well. Additionally, in order for \mathcal{J} to be an operator ideal, it must contain the class of all finite-rank Banach space operators.

Formal definition

Let \mathcal{L} denote the class of continuous linear operators acting between two Banach spaces. For any subclass \mathcal{J} of \mathcal{L} and any two Banach spaces X and Y over the same field \mathbb{K}, denote by \mathcal{J}(X,Y) the set of continuous linear operators of the form T:X\to Y. In this case, we say that \mathcal{J}(X,Y) is a component of \mathcal{J}. An operator ideal is a subclass \mathcal{J} of \mathcal{L}, containing every identity operator acting on a 1-dimensional Banach space, such that for any two Banach spaces X and Y over the same field \mathbb{K}, the following two conditions for \mathcal{J}(X,Y) are satisfied: (1) If S,T\in\mathcal{J}(X,Y) then S+T\in\mathcal{J}(X,Y); and (2) if W and Z are Banach spaces over \mathbb{K} with A\in\mathcal{L}(W,X) and B\in\mathcal{L}(Y,Z), and if T\in\mathcal{J}(X,Y), then BTA\in\mathcal{J}(W,Z).

Properties and examples

Operator ideals enjoy the following nice properties.

Furthermore, some very well-known classes are norm-closed operator ideals, i.e., operator ideals whose components are always norm-closed. These include but are not limited to the following.

References

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