Spin fractionalization and zero modes in the spin-12 XXZ chain with boundary fields

Abstract

In this work we argue that the antiferromagnetic spin 12 XXZ chain in the gapped phase with boundary magnetic fields hosts fractional spin 14 at its edges. Using a combination of Bethe ansatz and the density matrix renormalization group we show that these fractional spins are sharp quantum observables in both the ground and the first excited state as the associated fractional spin operators have zero variance. In the limit of zero edge fields, we argue that these fractional spin operators once projected onto the low energy subspace spanned by the ground state and the first excited state, identify with the strong zero energy mode discovered by P. Fendley Fendley.

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