Generic Properties of Koopman Eigenfunctions for Stable Fixed Points and Periodic Orbits

Our recent work established existence and uniqueness results for $mathcal{C}^{k,alpha}_{text{loc}}$ globally defined linearizing semiconjugacies for $mathcal{C}^1$ flows having a globally attracting hyperbolic fixed point or periodic orbit (Kvalheim and Revzen, 2019). Applications include (i) improvements, such as uniqueness statements, for the Sternberg linearization and Floquet normal form theorems; (ii) results concerning the existence, uniqueness, classification, and convergence of various quantities appearing in the applied Koopmanism literature, such as principal eigenfunctions, isostables, and Laplace averages. In this work we give an exposition of some of these results, with an emphasis on the Koopmanism applications, and consider their broadness of applicability. In particular we show that, for almost all $mathcal{C}^infty$ flows having a globally attracting hyperbolic fixed point or periodic orbit, the $mathcal{C}^infty$ Koopman eigenfunctions can be completely classified, generalizing a result known for analytic systems. For such systems, every $mathcal{C}^infty$ eigenfunction is uniquely determined by its eigenvalue modulo scalar multiplication.