Derivatives of normal functions in reverse mathematics

Abstract

Consider a normal function f on the ordinals (i. e. a function f that is strictly increasing and continuous at limit stages). By enumerating the fixed points of f we obtain a faster normal function f', called the derivative of f. The present paper investigates this important construction from the viewpoint of reverse mathematics. Within this framework we must restrict our attention to normal functions f:1→1 that are represented by dilators (i. e. particularly uniform endofunctors on the category of well-orders, as introduced by J.-Y. Girard). Due to a categorical construction of P. Aczel, each normal dilator T has a derivative ∂ T. We will give a new construction of the derivative, which shows that the existence and fundamental properties of ∂ T can already be established in the theory RCA0. The latter does not prove, however, that ∂ T preserves well-foundedness. Our main result shows that the statement ``for every normal dilator T, its derivative ∂ T preserves well-foundedness'' is ACA0-provably equivalent to 11-bar induction (and hence to 11-dependent choice and to 12-reflection for ω-models).