OPE of the pseudoscalar gluonium correlator in massless QCD to three-loop order

Abstract

In this paper analytical results are presented for higher order corrections to coefficient functions of the operator product expansion (OPE) for the correlator of two pseudoscalar gluonium operators O1=Gμ Gμ . The Wilson coefficient in front of the scalar gluon condensate operator O1=-1/4 Gμ Gμ is given at three-loop accuracy. The leading coefficient C0 in front of the unity operator O0=1 has been calculated up to three-loop order some time ago but has been checked independently in this work. It is interesting to see that the coefficient C1 in the pseudoscalar case is finite, whereas contact terms appear in C0 in this case and in both coefficients C0 and C1 in the cases of the scalar gluonium correlator and the energy momentum tensor correlator. For the corresponding Renormalization Group invariant Wilson coefficients which are also constructed the results are partially extended to four-loop accuracy. All results are given in the MSbar-scheme at zero temperature.