N=4 supersymmetric Yang-Mills thermodynamics to order λ2

Abstract

We calculate the resummed perturbative free energy of N=4 supersymmetric Yang-Mills in four spacetime dimensions (SYM4,4) through second order in the 't Hooft coupling λ at finite temperature and zero chemical potential. Our final result is ultraviolet finite and all infrared divergences generated at three-loop level are canceled by summing over SYM4,4 ring diagrams. Non-analytic terms at O(λ3/2) and O(λ2 λ ) are generated by dressing the A0 and scalar propagators. The gauge-field Debye mass mD and the scalar thermal mass M are determined from their corresponding finite-temperature self-energies. Based on this, we obtain the three-loop thermodynamic functions of SYM4,4 to O(λ2). We compare our final result with prior results obtained in the weak- and strong-coupling limits and construct a generalized Pad\'e approximant that interpolates between the weak-coupling result and the large-Nc strong-coupling result. Our results suggest that the O(λ2) weak-coupling result for the scaled entropy density is a quantitatively reliable approximation to the scaled entropy density for 0 ≤ λ 2.