Boundary criticality in the Gross-Neveu-Yukawa model at higher orders

Abstract

We extend the study of boundary criticality in the Gross-Neveu-Yukawa universality class beyond leading order. Using the hyperbolic space formulation of boundary conformal field theories, we compute the first subleading corrections at large N to the free energies of the ``normal", ``ordinary" and ``special" boundary universality classes. We also determine the order 1/N correction to the dimension of the boundary fermion at the normal fixed point. In the Gross-Neveu-Yukawa theory in d=4-ε, we perform a higher-order analysis of the boundary free energy, and use it to extract estimates for the boundary central charge in d=3. The large N and ε-expansion results are shown to be precisely consistent in overlapping regimes, providing nontrivial consistency checks for the identification of the boundary universality classes. Our calculations rely on a combination of AdS harmonic analysis and boundary conformal field theory techniques.