Light Quarks at Large $N$
Abstract
Lattice gauge theory simulations are our principal probe of the masses of the light quarks. Results from such computations are the primary evidence against the solution to the strong CP problem. The large- approximation offers an independent approach to light quarks. We extend existing literature, noting that one can determine the parameters of the non-linear sigma model through second order in quark mass, rule out the hypothesis, and make predictions for outputs of lattice calculations and phenomenological fits. A crucial feature of this analysis is a Wilsonian effective action at scales above the mass. One can self-consistently test the validity of aspects of this framework, and it may well be good to the part-in-three level. We also note consistency with some phenomenological fits and existing lattice results.
Keywords
Cite
@article{arxiv.2201.05719,
title = {Light Quarks at Large $N$},
author = {Daniel Davies and Michael Dine and Benjamin V. Lehmann},
journal= {arXiv preprint arXiv:2201.05719},
year = {2022}
}
Comments
21 pages, no figures. Contribution to a Festschrift in honor of Peter Suranyi