Anomalous dimensions from conformal field theory: Generalized φ2n+1 theories

Abstract

We investigate φ2n+1 deformations of the generalized free theory in the ε expansion, where the canonical kinetic term is generalized to a higher-derivative version. For n=1, we use the conformal multiplet recombination method to determine the leading anomalous dimensions of the fundamental scalar operator φ and the bilinear composite operators J. Then we extend the n=1 analysis to the Potts model with SN+1 symmetry and its higher-derivative generalization, in which φ is promoted to an N-component field. We further examine the Chew-Frautschi plots and their N dependence. However, for each integer n>1, the leading anomalous dimensions of φ and J are not fully determined and contain one unconstrained constant, which in the canonical cases can be fixed by the results from the traditional diagrammatic method. In all cases, we verify that the multiplet-recombination results are consistent with crossing symmetry using the analytic bootstrap methods.