Anomalous dimensions and critical exponents for the Gross-Neveu-Yukawa model at five loops

Abstract

We renormalize the Gross-Neveu-Yukawa model with an O(N) symmetry to O(ε5) in d=4-ε dimensions and determine the anomalous dimensions of the fermion and scalar fields, β-functions as well as the scalar field's mass operator. These are used to construct several N dependent critical exponents relevant for quantum transitions in semi-metals and in particular those connected with graphene in three dimensions when N=2. Improved exponent estimates for scalar fermion transitions on a honeycomb lattice, when N=1, as well as for N=5 are also given to compare with results from other techniques such as the conformal bootstrap.