Effects of dispersion parity-violating interaction in electron scattering and atoms

Abstract

Exchange of two neutrinos (as well as other fermions) generates a long-range parity-violating potential of the form G2/r5, with characteristic range /(2mνc). In atomic systems the corresponding matrix elements converge at distances r < 10/MZ, so that the interaction between electron and quarks effectively reduces to a contact term G2 MZ2 δ3(r) G\,α\,δ3(r). This interaction produces a -0.8\% correction to the effective weak charge of cesium, resolving the 2σ discrepancy between the Standard Model prediction and the measured Cs parity-violation amplitude. The corresponding value of the weak mixing angle is 2θW = 0.2375(19) at q2 ≈ 0, in agreement with the Standard Model prediction 2θW = 0.23873. The relative correction to the proton weak charge is about 3\%. Using these results, we revisit the limits on an additional Z' boson and obtain a constraint on isospin-conserving oblique radiative corrections characterized by the Peskin--Takeuchi parameter S = -0.32(53) at q2 ≈ 0.