The small-N series in the zero-dimensional O(N) model: constructive expansions and transseries

Abstract

We consider the 0-dimensional quartic O(N) vector model and present a complete study of the partition function Z(g,N) and its logarithm, the free energy W(g,N), seen as functions of the coupling g on a Riemann surface. Using constructive field theory techniques we prove that both Z(g,N) and W(g,N) are Borel summable functions along all the rays in the cut complex plane Cπ =C R-. We recover the transseries expansion of Z(g,N) using the intermediate field representation. We furthermore study the small-N expansions of Z(g,N) and W(g,N). For any g=|g| e on the sector of the Riemann surface with ||<3π/2, the small-N expansion of Z(g,N) has infinite radius of convergence in N while the expansion of W(g,N) has a finite radius of convergence in N for g in a subdomain of the same sector. The Taylor coefficients of these expansions, Zn(g) and Wn(g), exhibit analytic properties similar to Z(g,N) and W(g,N) and have transseries expansions. The transseries expansion of Zn(g) is readily accessible: much like Z(g,N), for any n, Zn(g) has a zero- and a one-instanton contribution. The transseries of Wn(g) is obtained using M\"oebius inversion and summing these transseries yields the transseries expansion of W(g,N). The transseries of Wn(g) and W(g,N) are markedly different: while W(g,N) displays contributions from arbitrarily many multi-instantons, Wn(g) exhibits contributions of only up to n-instanton sectors.