Aperiodic space-inhomogeneous quantum walks: localization properties, energy spectra and enhancement of entanglement
A. R. C. Buarque, W.S. Dias

TL;DR
This paper investigates how aperiodic inhomogeneities in quantum walks affect localization, energy spectra, and entanglement, revealing conditions for delocalization, spectral gaps, and entanglement enhancement.
Contribution
It introduces a novel analysis of aperiodic quantum walks, demonstrating how inhomogeneity influences transport, spectral properties, and entanglement, including cases of entanglement enhancement.
Findings
Delocalized and localized regimes identified by tuning aperiodic parameter.
Energy spectra show gap formation and flat bands with increased inhomogeneity.
Entanglement can be enhanced in certain aperiodic configurations.
Abstract
We study the localization properties, energy spectra and coin-position entanglement of the aperiodic discrete-time quantum walks. The aperiodicity is described by spatially dependent quantum coins distributed on the lattice, whose distribution is neither periodic (Bloch-like) nor random (Anderson-like). Within transport properties we identified delocalized/localized quantum walks mediated by a proper adjusting of aperiodic parameter. Both scenarios are studied by exploring typical quantities (inverse participation ratio and survival probability), as well as the energy spectra of an associated effective Hamiltonian. By using the energy spectra analysis, we show that the early stage the inhomogeneity leads to vanishing gap between two main bands, which justifies the the delocalized character observed for . With increase of arises gaps and flat-bands on the energy spectra,…
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