The complete trans-series for conserved charges in integrable field theories

Abstract

We analyze the vacuum expectation values of conserved charges in two dimensional integrable theories. We study the situations when the ground-state can be described by a single integral equation with a finite support: the thermodynamic limit of the Bethe ansatz equation. We solve this integral equation by expanding around the infinite support limit and write the expectation values in terms of an explicitly calculable trans-series, which includes both perturbative and all non-perturbative corrections. These different types of corrections are interrelated via resurgence relations, which we all reveal. We provide explicit formulas for a wide class of bosonic and fermionic models including the O(N) (super) symmetric nonlinear sigma and Gross-Neveu, the SU(N) invariant principal chiral and chiral Gross-Neveu models along with the Lieb-Liniger and Gaudin-Yang models and the case of the disk capacitor. With numerical analyses we demonstrate that the laterally Borel resummed trans-series is convergent and reproduces the physical result.