English

Pathology and asymmetry: centralizer rigidity for partially hyperbolic diffeomorphisms

Dynamical Systems 2020-11-10 v3

Abstract

We discover a rigidity phenomenon within the volume-preserving partially hyperbolic diffeomorphisms with 11-dimensional center. In particular, for smooth, ergodic perturbations of certain algebraic systems -- including the discretized geodesic flows over hyperbolic manifolds and certain toral automorphisms with simple spectrum and exactly one eigenvalue on the unit circle, the smooth centralizer is either virtually Z\mathbb Z^\ell or contains a smooth flow. At the heart of this work are two very different rigidity phenomena. The first was discovered in [2,3] for a class of volume-preserving partially hyperbolic systems including those studied here, the disintegration of volume along the center foliation is either equivalent to Lebesgue or atomic. The second phenomenon is the rigidity associated to several commuting partially hyperbolic diffeomorphisms with very different hyperbolic behavior transverse to a common center foliation [25]. We introduce a variety of techniques in the study of higher rank, abelian partially hyperbolic actions: most importantly, we demonstrate a novel geometric approach to building new partially hyperbolic elements in hyperbolic Weyl chambers using Pesin theory and leafwise conjugacy, while we also treat measure rigidity for circle extensions of Anosov diffeomorphisms and apply normal form theory to upgrade regularity of the centralizer.

Keywords

Cite

@article{arxiv.1902.05201,
  title  = {Pathology and asymmetry: centralizer rigidity for partially hyperbolic diffeomorphisms},
  author = {Danijela Damjanovic and Amie Wilkinson and Disheng Xu},
  journal= {arXiv preprint arXiv:1902.05201},
  year   = {2020}
}

Comments

We significantly improve Theorems 1-4 in v2. The new statements now of Theorems 1&3 allow for arbitrary negatively curved surfaces, as well as much more general classes of geodesic flows in higher dimension. For Theorems 2&4, we classify the centralizer. We also eliminated the global rigidity results in the previous version. These results will appear in a forthcoming paper

R2 v1 2026-06-23T07:40:35.799Z