On polyhomogeneous symbols and the Heisenberg pseudodifferential calculus

Abstract

Polyhomogeneous symbols, defined by Kohn-Nirenberg and H\"ormander in the 60's, play a central role in the symbolic calculus of most pseudodifferential calculi. We prove a simple characterisation of polyhomogeneous functions which avoids the use of asymptotic expansions. Specifically, if U is open subset of Rd, then a polyhomogeneous symbol on U × Rd is precisely the restriction to t=1 of a function on U × Rd+1 which is homogeneous for the dilations of Rd+1 modulo Schwartz class functions. This result holds for arbitrary graded dilations on the vector space Rd. As an application, using the generalisation of A.~Connes' tangent groupoid for a filtered manifold, we show that the Heisenberg calculus of Beals and Greiner on a contact manifold or a codimension 1 foliation coincides with the groupoid calculus of Van Erp and the second author.