Quantitative tightness for three-dimensional contact manifolds: a sub-Riemannian approach

Through the use of sub-Riemannian metrics we provide quantitative estimates for the maximal tight neighbourhood of a Reeb orbit on a three-dimensional contact manifold. Under appropriate geometric conditions we show how to construct closed curves which are boundaries of overtwisted disks. We introdu...

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Bibliographic Details
Published inarXiv.org
Main Authors Agrachev, Andrei A, Baranzini, Stefano, Bellini, Eugenio, Rizzi, Luca
Format Paper
LanguageEnglish
Published Ithaca Cornell University Library, arXiv.org 30.06.2024
Subjects
Lower bounds
Manifolds (mathematics)
Riemann manifold
Theorems
Tightness
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Summary:Through the use of sub-Riemannian metrics we provide quantitative estimates for the maximal tight neighbourhood of a Reeb orbit on a three-dimensional contact manifold. Under appropriate geometric conditions we show how to construct closed curves which are boundaries of overtwisted disks. We introduce the concept of contact Jacobi curve, and prove sharp lower bounds of the so-called tightness radius (from a Reeb orbit) in terms of Schwarzian derivative bounds. We also prove similar, but non-sharp, comparison theorems in terms of sub-Riemannian canonical curvature bounds. We apply our results to K-contact sub-Riemannian manifolds. In this setting, we prove a contact analogue of the celebrated Cartan-Hadamard theorem.
ISSN:2331-8422