Sub-leading conformal dimensions at the O(4) Wilson-Fisher fixed point

Abstract

In this work we focus on computing the conformal dimensions D(jL,jR) of local fields that transform in an irreducible representation of SU(2) × SU(2) labeled with (jL,jR) at the O(4) Wilson-Fisher fixed point using the Monte Carlo method. In the large charge expansion, among the sectors with a fixed large value of j = max(jL,jR), the leading sector has |jL-jR| = 0 and the sub-leading one has |jL-jR| = 1. Since Monte Carlo calculations at large j become challenging in the traditional lattice formulation of the O(4) model, a qubit regularized O(4) lattice model was used recently to compute D(j,j). Here we extend those calculations to the sub-leading sector. Our Monte Carlo results up to j=20 fit well to the form D(j,j-1)-D(j) λ1/2/j + λ1/j + λ3/2/j3/2, consistent with recent predictions of the large charge expansion. Taking into account systematic effects in our fitting procedures we estimate the two leading coefficients to be λ1/2=2.08(5), λ1=2.2(3).