QED3-inspired three-dimensional conformal lattice gauge theory without fine-tuning

Abstract

We construct a conformal lattice theory with only gauge degrees of freedom based on the induced non-local gauge action in QED3 coupled to large number of flavors N of massless two-component Dirac fermions. This lattice system displays signatures of criticality in gauge observables, without any fine-tuning of couplings and can be studied without Monte Carlo critical slow-down. By coupling exactly massless fermion sources to the lattice gauge model, we demonstrate that non-trivial anomalous dimensions are induced in fermion bilinears depending on the dimensionless electric charge of the fermion. We present a proof-of-principle lattice computation of the Wilson-coefficients of various fermion bilinear three-point functions. Finally, by mapping the charge q of fermion in the model to a flavor N in massless QED3, we point to an universality in low-lying Dirac spectrum and an evidence of self-duality of N=2 QED3.