Abstract
We study the metric entropy of the metric space of all -dimensional Banach spaces (the so-called Banach–Mazur compactum) equipped with the Banach–Mazur (multiplicative) “distance” . We are interested either in estimates independent of the dimension or in asymptotic estimates when the dimension tends to . For instance, we prove that, if is the smallest number of “balls” of “radius” that cover , then for any we have We also prove an analogous result for the metric entropy of the set of -dimensional operator spaces equipped with the distance naturally associated with matrices with operator entries. In that case is arbitrary but our estimates are valid independently of . In the Banach space case (i.e. ) the above upper bound is part of the folklore, and the lower bound is at least partially known (but apparently has not appeared in print). While we follow the same approach in both cases, the matricial case requires more delicate ingredients, namely estimates (from our previous work) on certain -tuples of unitary matrices known as “quantum expanders”.
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