Integration on the Surreals

Conway's real closed field No of surreal numbers is a sweeping generalization of the real numbers and the ordinals to which a number of elementary functions such as log and exponentiation have been shown to extend. The problems of identifying significant classes of functions that can be so extended and of defining integration for them have proven to be formidable. In this paper, we address this and related unresolved issues by showing that extensions to No, and thereby integrals, exist for most functions arising in practical applications. In particular, we show they exist for a large subclass of the resurgent functions, a subclass that contains the functions that at infinity are semi-algebraic, semi-analytic, analytic, meromorphic, and Borel summable as well as generic solutions to linear and nonlinear systems of ODEs possibly having irregular singularities. We further establish a sufficient condition for the theory to carry over to ordered exponential subfields of No more generally and illustrate the result with structures familiar from the surreal literature. We work in NBG less the Axiom of Choice (for both sets and proper classes), with the result that the extensions of functions and integrals that concern us here have a "constructive" nature in this sense. In the Appendix it is shown that the existence of such constructive extensions and integrals of substantially more general types of functions (e.g. smooth functions) is obstructed by considerations from the foundations of mathematics.