Parity-Violating Three Nucleon Interactions at Low Energies and Large-NC

Abstract

The parity-violating (PV) nucleon-nucleon (N\!N) interaction in the three-nucleon system is investigated using pionless effective field theory (EFT(/\!\!\!π)). This work shows that a next-to-leading order (NLO) PV three-body force is necessary in contradiction with a previous claim [Griesshammer and Schindler in Eur. Phys. J. A 46, 73 (2010)]. Including three-body P to D-wave transitions PV three-nucleon observables are calculated to higher energies than previously considered. Using the recent large-NC analysis of the PV N\!N interaction in EFT(/\!\!\!π) the current understanding of low energy PV few-body measurements is reassessed. The recent measurement of the asymmetry Aγ in np dγ from the NPDGamma collaboration [D. Blyth et al. (NPDGamma), Phys. Rev. Lett. 121, 242002 (2018)], gives the value g4(NC-1)=(-1.4 0.63(stat.) 0.09(syst.))× 10-10~MeV-1 for a next-to-next-to-leading order (N2LO) in large-NC low energy constant (LEC). Using the large-NC hierarchy of LECs the sizes of the leading order (LO) in large-NC LECs are estimated using an experimental bound on a parity violating asymmetry in pd scattering at Elab=15 MeV and a measurement of pp scattering at Elab=13.6 MeV. Comparing the size of the resulting LO in large-NC LECs to the N2LO in large-NC LEC g4(NC-1) shows they are roughly the same size in contradiction with current large-NC counting.