Symplectic capacities of domains close to the ball and Banach-Mazur geodesics in the space of contact forms
Abstract
We prove that all normalized symplectic capacities coincide on smooth domains in Cn which are C2-close to the Euclidean ball, whereas this fails for some smooth domains which are just C1-close to the ball. We also prove that all symplectic capacities whose value on ellipsoids agrees with that of the n-th Ekeland-Hofer capacity coincide in a C2-neighborhood of the Euclidean ball of Cn. These results are deduced from a general theorem about contact forms which are C2-close to Zoll ones, saying that these contact forms can be pulled back to suitable "quasi-invariant" contact forms. We relate all this to the question of the existence of minimizing geodesics in the space of contact forms equipped with a Banach-Mazur pseudo-metric. Using some new spectral invariants for contact forms, we prove the existence of minimizing geodesics from a Zoll contact form to any contact form which is C2-close to it. This paper also contains an appendix in which we review the construction of exotic ellipsoids by the Anosov-Katok conjugation method, as these are related to the above mentioned pseudo-metric.
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