Functional Dimensional Regularization for O(N) Models

Abstract

The novel functional dimensional regularization (FDR) scheme has proven capable of yielding results that are competitive with the state-of-the-art in the computation of critical exponents in d=3, while also reproducing those from the -expansion for the Ising and other universality classes. In this work, we show that this is not a mere coincidence: by applying the scheme to the O(N) universality class, we explicitly derive the flow equations and obtain critical exponents that are comparable to those obtained with higher-order non-perturbative approaches. In this case, FDR retains the features already highlighted in previous works -- namely, its efficiency and rapid convergence.