Edge Spin fractionalization in one-dimensional spin-S quantum antiferromagnets

Abstract

We show that a gapped spin-S chain with antiferromagnetic (AFM) order exhibits in the thermodynamic limit exponentially localized fractional S2 edge modes when the system possesses U(1) symmetry. We show this for integrable and non integrable spin chains both analytically and numerically. Through exact analytical solutions, we show that an AFM spin-12 chain with explicitly broken Z2 symmetry and an integrable AFM spin-1 chain with spontaneously broken Z2 symmetry have 14 and 12 fractionalized edge modes, respectively. Furthermore, employing the density matrix renormalization group technique, we extend this analysis to generic XXZ-S chains with S≤ 3 and demonstrate that these fractional spins are robust quantum observables, substantiated by the observation of a variance of the associated fractional spin operators that is consistent with a vanishing functional form in the thermodynamic limit. Moreover, we find that the edge modes are robust to disorder that couples to the N\'eel order parameter.