Central charges CJ and CT in QEDd-GNY model and scalar QEDd

Abstract

We compute the leading-order 1/N corrections to the central charges CJ and CT in the conformal QEDd-Gross-Neveu-Yukawa (GNY) model and the scalar QEDd in d dimensions. The scaling dimensions of the lowest adjoint bilinear scalars are obtained to order O(1/N) for general d. In d=3, the U(1) Abelian gauge theory possesses a topological U(1) global symmetry, and we evaluate the central charge CJtop of the topological symmetry current to subleading order in the 1/N expansion. Our interest in these theories is primarily motivated by their potential connection to the SO(5) symmetric deconfined quantum critical point (DQCP). We compare the large N results for the central charges CJ and CT with the conformal data of the SO(5) DQCP obtained from fuzzy sphere and conformal bootstrap. The large N predictions of the QED3-GNY model are found to be in reasonable agreement with the nonperturbative estimates for the SO(5) DQCP.