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Effects of Temperature and Magnetization on the Mott-Anderson Physics in one-dimensional Disordered Systems

We investigate the Mott-Anderson physics in interacting disordered one-dimensional chains through the average single-site entanglement quantified by the linear entropy, which is obtained via density-functional theory calculations. We show that the minimum disorder strength required to the so-called full Anderson localization $-$ characterized by the real-space localization of pairs $-$ is strongly dependent on the interaction regime. The degree of localization is found to be intrinsically related to the interplay between the correlations and the disorder potential. In magnetized systems, the minimum entanglement characteristic of the full Anderson localization is split into two, one for each of the spin species. We show that although all types of localization eventually disappear with increasing temperature, the full Anderson localization persists for higher temperatures than the Mott-like localization.

preprint2022arXivOpen access
G. A. CanellaK. ZawadzkiV. V. França
cond-mat.str-elcond-mat.mtrl-scicond-mat.dis-nncond-mat.quant-gasquant-ph
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G. A. CanellaK. ZawadzkiV. V. França

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