Asymptotic Tensor Powers of Banach Spaces

Abstract

We study the asymptotic behaviour of large tensor powers of normed spaces and of operators between them. We define the tensor radius of a finite-dimensional normed space X as the limit of the sequence Ak1/k, where Ak is the equivalence constant between the projective and injective norms on X k. We show that Euclidean spaces are characterized by the property that their tensor radius equals their dimension. Moreover, we compute the tensor radius for spaces with enough symmetries, such as the spaces pn. We also define the tensor radius of an operator T as the limit of the sequence Bk1/k, where Bk is the injective-to-projective norm of T k. We show that the tensor radius of an operator whose domain or range is Euclidean is equal to its nuclear norm, and give some evidence that this property might characterize Euclidean spaces.

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