Wave functions in the Critical Phase: a Planar Sierpi\'nski Fractal Lattice

Abstract

Electronic states play a crucial role in many quantum systems of moire superlattices, quasicrystals, and fractals. As recently reported in Sierpi\'nski lattices [Phys. Rev. B 107, 115424 (2023)], the critical states are revealed by the energy level-correlation spectra, which are caused by the interplay between aperiodicity and determined self-similarity characters. In the case of the Sierpi\'nski Carpet, our results further demonstrate that there is some degree of spatial overlap between these electronic states. These states could be strongly affected by its `seed lattice' of the generator, and slightly modulated by the dilation pattern and the geometrical self-similarity level. These electronic states are multifractal by scaling the q-order inverse participation ratio or fractal dimension, which correlates with the subdiffusion behavior. In the gene pattern, the averaged state-based multifractal dimension of second-order would increase as its Hausdoff dimension increases. Our findings could potentially contribute to understanding quantum transports and single-particle quantum dynamics in fractals.