OPE of the energy-momentum tensor correlator and the gluon condensate operator in massless QCD to three-loop order

Abstract

The correlator of two gluonic operators plays an important role for example in transport properties of a Quark Gluon Plasma (QGP) or in sum rules for glueballs. In [1] an operator product expansion (OPE) at zero temperature was performed for the correlators of two scalar operators O1=-14 Gμ Gμ and two QCD energy-momentum tensors Tμ. There we presented analytical two-loop results for the Wilson coefficient C1 in front of the gluon condensate operator O1. In this paper these results are extended to three-loop order. The three-loop Wilson coefficient C0 in front of the unity operator O0=1 was already presented in [1] for the Tμ-correlator. For the O1-correlator the coefficient C0 is known to four loop order from [2]. For the correlator of two pseudoscalar operators O1=μσ Gμ G σ both coefficients C0 and C1 were computed in [3] to three-loop order. At zero temperature C0 and C1 are the leading Wilson coefficients in massless QCD.