Existence of robust edge currents in Sierpinski Fractals
Publication date
2020-01-13
Authors
Fremling, Mikael
Fritz, L.
Morais Smith, C.
van Hooft, Michal
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Document Type
Article
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Abstract
We investigate the Hall conductivity in a Sierpinski carpet, a fractal of Hausdorff dimension ´ df = ln(8)/ ln(3) ≈ 1.893, subject to a perpendicular magnetic field. We compute the Hall conductivity using linear response and the recursive Green function method. Our main finding is that edge modes, corresponding to a maximum Hall conductivity of at least σxy = ±e2 h , seem to be generically present for arbitrary finite field strength, no matter how one approaches the thermodynamic limit of the fractal. We discuss a simple counting rule to determine the maximal number of edge modes in terms of paths through the system with a fixed width. This quantized edge conductance, as in the case of the conventional Hofstadter problem, is stable with respect to disorder and thus a robust feature of the system.
Keywords
Chern insulators, Integer quantum Hall effect, Quantum Hall effect, Topological Hall effect, Topological insulators, Fractals, Fractal dimension characterization, Green's function methods, Linear response theory
Citation
Fremling, M H O, Fritz, L, de Morais Smith, C & van Hooft, M 2020, 'Existence of robust edge currents in Sierpinski Fractals', Physical Review Research, vol. 2, 013044. https://doi.org/10.1103/PhysRevResearch.2.013044, https://doi.org/10.1103/PhysRevResearch.2.013044