Exact Diag. Study of the 1D Disordered XXZ Model

Abstract

We investigate the one-dimensional quantum XXZ model in the presence of diagonal disorder. Recently the model has been analyzed with the help of field-theoretical renormalization group methods, and a phase diagram has been predicted. We study the model with exact diagonalization techniques up to chain lengths of 16 sites. Using finite-size scaling methods we estimate critical exponents and the phase diagram and find reasonably good agreement with the field-theoretical results, namely, that any amount of disorder destroys the superfluidity for XXZ anisotropy Δ between -1/2 and 1, while the superfluidity persists to finite disorder strength for -1 < Δ< -1/2 and then undergoes a Kosterlitz-Thouless type transition.

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