Anomalous low-frequency conductivity in easy-plane XXZ spin chains

Abstract

In the easy-plane regime of XXZ spin chains, spin transport is ballistic, with a Drude weight that has a discontinuous fractal dependence on the value of the anisotropy = π λ at nonzero temperatures. We show that this structure necessarily implies the divergence of the low-frequency conductivity for generic irrational values of λ. Within the framework of generalized hydrodynamics, we show that in the high-temperature limit the low-frequency conductivity at a generic anisotropy scales as σ(ω) 1/ω; anomalous response occurs because quasiparticles undergo L\'evy flights. For rational values of λ, the divergence is cut off at low frequencies and the corrections to ballistic spin transport are diffusive. We also use our approach to recover that at the isotropic point =1, spin transport is superdiffusive with σ(ω) ω-1/3. We support our results with extensive numerical studies using matrix-product operator methods.