A systolic inequality for geodesic flows on the two-sphere

Abstract

For a Riemannian metric g on the two-sphere, let (g) be the length of the shortest closed geodesic and (g) be the length of the longest simple closed geodesic. We prove that if the curvature of g is positive and sufficiently pinched, then the sharp systolic inequalities \[ min(g)2 ≤ π \ Area(S2,g) ≤ (g)2, \] hold, and each of these two inequalities is an equality if and only if the metric g is Zoll. The first inequality answers positively a conjecture of Babenko and Balacheff. The proof combines arguments from Riemannian and symplectic geometry.