Hadronic matrix elements of gluon operators in the instanton vacuum

Abstract

We propose a method to evaluate hadronic matrix elements of QCD gluon operators in the instanton vacuum. We construct the ground state of the interacting instanton ensemble for nonzero ϑ-angle using a variational principle. A method to study the ϑ-dependence of observables on the lattice is suggested. We then derive the effective fermion action, which allows us to calculate hadronic correlation functions in a 1/ N c expansion (Nambu-Jona-Lasinio type effective fermion theory). Gluon operators are systematically represented as effective fermion operators. Physical matrix elements are obtained after integrating the correlation functions over fluctuations of the numbers of instantons. The influence of the fermion determinant on the topological susceptibility is taken into account. Our effective description gives matrix elements fully consistent with the trace and U(1) A anomalies. The approach allows us to consistently evaluate the nucleon matrix elements of various gluon and mixed quark-gluon operators in a chiral soliton picture of the nucleon.