On Schwartz equivalence of quasidiscs and other planar domains

Abstract

Two open subsets of Rn are called Schwartz equivalent if there exists a diffeomorphism between them that induces an isomorphism of Fr\'echet spaces between their spaces of Schwartz functions. In this paper we use tools from quasiconformal geometry in order to prove the Schwartz equivalence of a few families of planar domains. We prove that all quasidiscs are Schwartz equivalent and that any two non-simply-connected planar domains whose boundaries are quasicircles are Schwartz equivalent. We classify the two Schwartz equivalence classes of domains that consist of the entire plane minus a quasiarc and prove a Koebe type theorem, stating that any planar domain whose connected components of its boundary are finitely many quasicircles is Schwartz equivalent to a circle domain. We also prove that the notion of Schwartz equivalence is strictly finer than the notion of C∞-diffeomorphism by constructing examples of open subsets of Rn that are C∞-diffeomorphic and are not Schwartz equivalent.