English

Progress on nucleon transition matrix elements with a lattice QCD variational analysis

High Energy Physics - Lattice 2024-06-03 v1

Abstract

Nucleon weak matrix elements can be extracted from nucleon correlation functions with lattice QCD simulations. The signal-to-noise ratio prohibits the analysis at large source-sink separations and as a consequence, excited state contamination affects the extraction of the nucleon matrix elements. Chiral perturbation theory (ChPT) suggests that the dominant contamination in some of these channels is due to NπN\pi states where the pion carries the same momentum of the current. In this talk, we report updates on the variational analysis with qqqqqq-operators (nucleon-like) and (qqq)(qˉq)(qqq)(\bar{q}q)-operators (nucleon-pion-like) where we report for the first time some preliminary results of NπJN\langle N\pi| \mathcal{J}| N \rangle , modulo some kinematic and volume factors, and we compare the results against ChPT. This pilot study is performed on a CLS ensemble with Nf=3N_f=3, mπ420 MeVm_\pi \approx 420~\mathrm{MeV}, a0.1 fma\approx 0.1~\mathrm{fm} and T=2L4.8 fmT=2L\approx 4.8~\mathrm{fm}.

Keywords

Cite

@article{arxiv.2405.20875,
  title  = {Progress on nucleon transition matrix elements with a lattice QCD variational analysis},
  author = {Lorenzo Barca and Gunnar Bali and Sara Collins},
  journal= {arXiv preprint arXiv:2405.20875},
  year   = {2024}
}

Comments

Proceedings for the EuroPLEx Final Conference, 11-15 September 2023, Humboldt University of Berlin

R2 v1 2026-06-28T16:48:30.754Z