Critical dynamics of long-range quantum disordered systems - Archive ouverte HAL
Article Dans Une Revue Physical Review E Année : 2023

Critical dynamics of long-range quantum disordered systems

Résumé

Long-range hoppings in quantum disordered systems are known to yield quantum multifractality, whose features can go beyond the characteristic properties associated with an Anderson transition. Indeed, critical dynamics of long-range quantum systems can exhibit anomalous dynamical behaviours distinct from those at the Anderson transition in finite dimensions. In this paper, we propose a phenomenological model of wave packet expansion in long-range hopping systems. We consider both their multifractal properties and the algebraic fat tails induced by the long-range hoppings. Using this model, we analytically derive the dynamics of moments and Inverse Participation Ratios of the time-evolving wave packets, in connection with the multifractal dimension of the system. To validate our predictions, we perform numerical simulations of a Floquet model that is analogous to the power law random banded matrix ensemble. Unlike the Anderson transition in finite dimensions, the dynamics of such systems cannot be adequately described by a single parameter scaling law that solely depends on time. Instead, it becomes crucial to establish scaling laws involving both the finite-size and the time. Explicit scaling laws for the observables under consideration are presented. Our findings are of considerable interest towards applications in the fields of many-body localization and Anderson localization on random graphs, where long-range effects arise due to the inherent topology of the Hilbert space.

Dates et versions

hal-04170737 , version 2 (25-07-2023)
hal-04170737 , version 1 (25-09-2023)

Identifiants

Citer

Weitao Chen, Gabriel Lemarié, Jiangbin Gong. Critical dynamics of long-range quantum disordered systems. Physical Review E , 2023, 108 (5), pp.054127. ⟨10.1103/PhysRevE.108.054127⟩. ⟨hal-04170737v2⟩
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