C0-Poisson geometry, coisotropic submanifolds, and clean intersection points

Abstract

In this work, we initiate the study of rigidity and non-rigidity phenomena for Poisson homeomorphisms, defined as uniform C0-limits of Poisson diffeomorphisms. First, we prove that Poisson homeomorphisms preserve the singular symplectic foliation: they map symplectic leaves to symplectic leaves by symplectic homeomorphisms. Second, we establish the C0-rigidity of coisotropic submanifolds in Poisson manifolds. A key ingredient is the notion of ''clean intersection point'' between a submanifold and the leaves of a singular foliation, whose study is of independent interest for singular foliation theory and Poisson geometry. In contrast with the symplectic case, characteristic foliations of coisotropic submanifolds are not rigid under Poisson homeomorphisms, exhibiting flexibility phenomena specific to the Poisson setting. We discuss partial rigidity results, introduce a topological invariant of coisotropic submanifolds, the C0-characteristic partition, and show that C0-coisotropic submanifolds are non-smooth objects whose vanishing ideal defines a Lie subalgebra of the Poisson algebra. Finally, we consider Poisson homeomorphisms that lift to symplectic homeomorphisms of a symplectic realization and show that nearly all Poisson manifolds admit non-liftable Poisson homeomorphisms. Our main results answer three questions posed by Joksimovi\'c and Marcut.