Floquet dynamics of disordered bands with isolated critical energies

S. Ganeshan, Kartiek Agarwal, Kartiek Agarwal, R. Bhatt, R. Bhatt
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Abstract

We investigate the localization properties of driven models that exhibit a sub-extensive number of extended states in the static setting. We consider instances where the extended modes are or are not protected by topological considerations. To this end, we contrast the strongly driven disordered lowest Landau level, which we refer to as the random Landau model (RLM), with the random dimer model (RDM); the latter also has a sub-extensive set of delocalized modes in the middle of the spectrum whose origin is not topological. We map the driven models on to a higher dimensional effective model and numerically compute the localization length as a function of disorder strength, drive amplitude and frequency using the recursive Green's function method. Our numerical results indicate that in the presence of a strong drive (low frequency and/or large drive amplitude), the topologically protected RLM continues to exhibit a spectrum with both localized and delocalized (or critical) modes, but the spectral range of delocalized modes is enhanced by the driving. This occurs due to an admixture of the localized modes with extended modes arising due to the topologically protected critical energy in the middle of the spectrum. On the other hand, in the RDM, a weak drive immediately localizes the entire spectrum. This occurs in contrast to the naive expectation from perturbation theory that mixing between localized and delocalized modes generically enhances the delocalization of all modes. Our work highlights the importance of the origin of the delocalized modes in the localization properties of the corresponding Floquet model.
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具有孤立临界能的无序带的Floquet动力学
我们研究了在静态设置中表现出次扩展数量的扩展状态的驱动模型的定位属性。我们考虑扩展模式是否受拓扑保护的实例。为此,我们将强驱动无序最低朗道能级(我们称之为随机朗道模型(RLM))与随机二聚体模型(RDM)进行了对比;后者在谱的中间也有一组非拓扑起源的离域模。我们将驱动模型映射到高维有效模型上,并采用递归格林函数法数值计算局部化长度作为无序强度、驱动振幅和频率的函数。我们的数值结果表明,在强驱动(低频和/或大驱动振幅)的存在下,拓扑保护的RLM继续表现出局域和离域(或临界)模式的频谱,但离域模式的频谱范围通过驱动而增强。这是由于局域模态与扩展模态的混合而产生的,这是由于拓扑保护的临界能量在光谱的中间。另一方面,在RDM中,弱驱动器立即定位整个频谱。这与微扰理论的朴素期望相反,即局域模态和离域模态之间的混合一般会增强所有模态的离域。我们的工作强调了离域模式的起源在相应的Floquet模型的局部化特性中的重要性。
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