Fortuitous Universality of Bose-Kondo Impurities

Abstract

We use the fuzzy-sphere approach to study the Bose-Kondo impurity problem, namely a spin-S impurity coupled to the (2+1)-dimensional O(3) Wilson-Fisher CFT (Heisenberg universality class). We demonstrate that for S=1/2,1,3/2 the impurity flows to a distinct stable interacting conformal defect for each S. Using large-scale exact diagonalization and density-matrix renormalization group methods, we observe integer-spaced defect spectrum consistent with defect conformal symmetry and compute several low-lying defect primary operators as well as the RG monotonic g-function. Our findings show that despite sharing the same symmetry and anomaly, Bose-Kondo impurities flow to distinct stable infrared conformal fixed points, which we refer to as fortuitous universality. We expect this fortuitous universality to persist for all S, extending to S→∞, with each spin-S impurity flowing to its own stable infrared conformal fixed point.