Exploring a new approach to Hadronic Parity Violation from Lattice QCD

Abstract

The long-range, parity-odd nucleon interaction generated by single pion exchange is captured in the parity-odd pion-nucleon coupling h1π. Its calculation in lattice QCD requires the evaluation of 4-quark operator nucleon 3-point functions. We investigate a new numerical approach to compute h1π based on nucleon matrix elements of parity-even 4-quark operators and related to the parity-violating electro-weak theory by PCAC and chiral perturbation theory. This study is performed with 2+1+1 dynamical flavors of twisted mass fermions at pion mass mπ ≈ 260\,MeV in a lattice box of L ≈ 3 \,fm and with a lattice spacing of a ≈ 0.091 \,fm. From a calculation excluding fermion loop diagrams we find a bare coupling of h1π = 8.08 \,(98) · 10-7.