G2 integrable point characterization via isotropic spin-3 chains

Abstract

We investigate the physical properties of G2-symmetric integrable chains with local degrees of freedom in the fundamental representation; given the typical connection between integrability and critical points, we test the model's properties against a hypothesis of conformal-invariant long-distance behavior. Leveraging an embedding between the G2 exceptional Lie algebra and SU(2)-symmetric chains with local spin-3 representations, we perform numerical analyses via exact diagonalization (ED) targeted at specific spin sectors, as well as via non-Abelian density-matrix renormalization group. A basic study of the momentum-resolved ED spectrum suggests the low-energy system is effectively described by a (G2)1 Wess-Zumino-Witten (WZW) theory, but we find challenges in further numerical characterization of conformal data. The study and control of the phenomenology of this model may have implications for the development of accessible models for Fibonacci anyons.