Extended states in one-dimensional aperiodic lattices with linearly varying patches

Author:

Longyan Gong

Keyword:

Condensed Matter, Disordered Systems and Neural Networks, Disordered Systems and Neural Networks (cond-mat.dis-nn)

journal:

Phys. Rev. B 108,184201(2023)

date:

2023-05-28 16:00:00

Abstract

We introduce a family of 1D aperiodic tight-binding models with linearly varying patches of A-type sites with on-site energies $\epsilon_A=0$ connected by single B-type sites with $\epsilon_B=W$. We analytically show such structures have strong spatial correlations. We theoretically find states are extended at resonance levels in the vicinity of $E^\kappa_M=-2\cos\frac{\kappa\pi}{M}$ if they are allowed energies, where $M=md$ are the size differences of patches, $d$ is the variation rate of patch sizes, $m\in \mathcal{N_{+}}$ and $\kappa=1,2,\cdots,M-1$. Related delocalization-localization transitions are explored. Numerical evidences are in excellent quantitative agreement with theoretical predictions.

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