Non-ergodic behaviour of clean Bose-Hubbard chains

Autor: Russomanno, Angelo, Fava, Michele, Fazio, Rosario
Rok vydání: 2020
Předmět:
Zdroj: Phys. Rev. B 102, 144302 (2020)
Druh dokumentu: Working Paper
DOI: 10.1103/PhysRevB.102.144302
Popis: We study ergodicity breaking in the clean Bose-Hubbard chain for small hopping strength. We see the existence of a non-ergodic regime by means of indicators as the half-chain entanglement entropy of the eigenstates, the average level spacing ratio, {the properties of the eigenstate-expectation distribution of the correlation and the scaling of the Inverse Participation Ratio averages.} We find that this ergodicity breaking {is different from many-body localization} because the average half-chain entanglement entropy of the eigenstates obeys volume law. This ergodicity breaking appears unrelated to the spectrum being organized in quasidegenerate multiplets at small hopping and finite system sizes, so in principle it can survive also for larger system sizes. We find that some imbalance oscillations in time which could mark the existence of a glassy behaviour in space are well described by the dynamics of a single symmetry-breaking doublet and {quantitatively} captured by a perturbative effective XXZ model. We show that the amplitude of these oscillations vanishes in the large-size limit. {Our findings are numerically obtained for systems with $L < 12$. Extrapolations of our scalings to larger system sizes should be taken with care, as discussed in the paper.
Comment: 18 pages, 13 figures, extensively revised version published in Physical Review B, Eq. (21) in the correct form
Databáze: arXiv