Sharp systolic inequalities for Reeb flows on the three-sphere

Abstract

The systolic ratio of a contact form α on the three-sphere is the quantity \[ sys(α) = T(α)2vol(S3,α dα), \] where T(α) is the minimal period of closed Reeb orbits on (S3,α). A Zoll contact form is a contact form such that all the orbits of the corresponding Reeb flow are closed and have the same period. Our first main result is that sys≤ 1 in a neighbourhood of the space of Zoll contact forms on S3, with equality holding precisely at Zoll contact forms. This implies a particular case of a conjecture of Viterbo, a local middle-dimensional non-squeezing theorem, and a sharp systolic inequality for Finsler metrics on the two-sphere which are close to Zoll ones. Our second main result is that sys is unbounded from above on the space of tight contact forms on S3.