随机海森堡链中相关函数的统计

Luis Colmenarez, P. McClarty, M. Haque, D. J. Luitz
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引用次数: 21

摘要

遍历量子多体系统满足本征态热化假设。然而,至少在一维系统中,强无序性可以通过多体局部化(MBL)破坏遍历性,从而在局部算子的能量本征态期望值的概率分布中清晰地显示出MBL跃迁的信号。对于MBL的一个范式模型,即随机场海森堡自旋链,我们考虑了本征态相关函数在整个相图上的全概率分布。我们发现高斯分布在弱无序,正如预测的纯ETH。在中间无序-在热相-我们发现了进一步的证据异常热化形式的重尾分布。在MBL阶段,我们观察到相关器分布的特殊特征:$S_i^z S_{i+r}^z$相关器具有很强的不对称性,向负值倾斜;以及自旋翻转相关器的多模态分布。对这些相关器的定量准简并微扰理论计算得出了与精确结果惊人的一致,特别是揭示了自旋翻转相关器分布中多峰的起源是由自旋构型的共振和非共振混合引起的。在MBL和Anderson绝缘子情况下,$S_i^zS_{i+r}^z$相关器的分布表现出显著的差异。
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Statistics of correlation functions in the random Heisenberg chain
Ergodic quantum many-body systems satisfy the eigenstate thermalization hypothesis (ETH). However, strong disorder can destroy ergodicity through many-body localization (MBL) -- at least in one dimensional systems -- leading to a clear signal of the MBL transition in the probability distributions of energy eigenstate expectation values of local operators. For a paradigmatic model of MBL, namely the random-field Heisenberg spin chain, we consider the full probability distribution of eigenstate correlation functions across the entire phase diagram. We find gaussian distributions at weak disorder, as predicted by pure ETH. At intermediate disorder -- in the thermal phase -- we find further evidence for anomalous thermalization in the form of heavy tails of the distributions. In the MBL phase, we observe peculiar features of the correlator distributions: a strong asymmetry in $S_i^z S_{i+r}^z$ correlators skewed towards negative values; and a multimodal distribution for spin-flip correlators. A quantitative quasi-degenerate perturbation theory calculation of these correlators yields a surprising agreement of the full distribution with the exact results, revealing, in particular, the origin of the multiple peaks in the spin-flip correlator distribution as arising from the resonant and off-resonant admixture of spin configurations. The distribution of the $S_i^zS_{i+r}^z$ correlator exhibits striking differences between the MBL and Anderson insulator cases.
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