Carnot metrics, Dynamics and Local Rigidity
Abstract
This paper develops new techniques for studying smooth dynamical systems in the presence of a \CC metric. Principally, we employ the theory of Margulis-Mostow, M\'etivier, Mitchell and Pansu on tangent cones to establish resonances between Lyapunov exponents. We apply these results in three different settings. First, we explore rigidity properties of smooth dominated splittings for Anosov diffeomorphisms and flows via associated smooth \CC metrics. Second, we obtain local rigidity properties of higher hyperbolic rank metrics in a neighborhood of a locally symmetric one. For the latter application we also prove structural stability of the Brin-Pesin asymptotic holonomy group for frame flows. Finally, we obtain local rigidity properties for uniform lattice actions on the ideal boundary of quaternionic and octonionic symmetric spaces.
Cite
@article{arxiv.2104.11990,
title = {Carnot metrics, Dynamics and Local Rigidity},
author = {Chris Connell and Thang Nguyen and Ralf Spatzier},
journal= {arXiv preprint arXiv:2104.11990},
year = {2021}
}
Comments
44 pages