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Finite-temperature effects on interacting bosonic 1D systems in disordered lattices

We analyze the finite-temperature effects on the phase diagram describing the insulating properties of interacting 1D bosons in a quasi-periodic lattice. We examine thermal effects by comparing experimental results to exact diagonalization for small-sized systems and to density-matrix renormalization group (DMRG) computations. At weak interactions, we find short thermal correlation lengths, indicating a substantial impact of temperature on the system coherence. Conversely, at strong interactions, the obtained thermal correlation lengths are significantly larger than the localization length, and the quantum nature of the T=0 Bose glass phase is preserved up to a crossover temperature that depends on the disorder strength. Furthermore, in the absence of disorder, we show how quasi-exact finite-T DMRG computations, compared to experimental results, can be employed to estimate the temperature, which is not directly accessible in the experiment.

preprint2015arXivOpen access
Lorenzo GoriThomas BarthelAvinash KumarEleonora LucioniLuca TanziMassimo InguscioGiovanni ModugnoThierry GiamarchiChiara D'ErricoGuillaume Roux
cond-mat.dis-nn
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Lorenzo GoriThomas BarthelAvinash KumarEleonora LucioniLuca TanziMassimo InguscioGiovanni ModugnoThierry GiamarchiChiara D'ErricoGuillaume Roux

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