Interplay between complex symmetry and Koenigs eigenfunctions

Abstract

We investigate the relationship between the complex symmetry of composition operators Cφf=f φ induced on the classical Hardy space H2(D) by an analytic self-map φ of the open unit disk D and its Koenigs eigenfunction. A generalization of orthogonality known as conjugate-orthogonality will play a key role in this work. We show that if φ is a Schr\"oder map (fixes a point a∈ D with 0<|φ'(a)|<1) and σ is its Koenigs eigenfunction, then Cφ is complex symmetric if and only if (σn)n∈ N is complete and conjugate-orthogonal in H2(D). We study the conjugate-orthogonality of Koenigs sequences with some concrete examples. We use these results to show that commutants of complex symmetric composition operators with Schr\"oder symbols consist entirely of complex symmetric operators.