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Main Authors: Lage, L. L., Félix, A. B., Sousa-Júnior, S. dos A., Latgé, A., Cysne, Tarik P.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2503.02754
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author Lage, L. L.
Félix, A. B.
Sousa-Júnior, S. dos A.
Latgé, A.
Cysne, Tarik P.
author_facet Lage, L. L.
Félix, A. B.
Sousa-Júnior, S. dos A.
Latgé, A.
Cysne, Tarik P.
contents We study the spectral properties and local topology of the Kane-Mele-Rashba model on a Sierpinski Carpet (SC) fractal, constructed from a rectangular flake with an underlying honeycomb arrangement and open boundary conditions. When the system parameters correspond to a topologically trivial phase, the energy spectrum is characterized solely by bulk states that are not significantly modified by the system's fractality. For parameters corresponding to the quantum spin Hall insulator (QSHI) phase, in addition to bulk states, the energy spectrum exhibits in-gap topological states that are strongly influenced by the fractal geometry. As the fractal generation increases, the in-gap topological states acquire a staircase profile, which translates into sharp peaks in the density of states. We also show that both the QSHI and the trivial phase exhibit a large gap in the valence-projected spin spectrum, allowing the use of the local spin Chern marker (LSCM) to index the local topology of the system. Fractality does not affect this gap, allowing the application of LSCM to higher fractal generations. Our results explore the LSCM versatility, showing its potential to access local topology in complex geometries such as fractal systems.
format Preprint
id arxiv_https___arxiv_org_abs_2503_02754
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Topological Phases in Fractals: Local Spin Chern Marker in the Sierpinski carpet Kane-Mele-Rashba Model
Lage, L. L.
Félix, A. B.
Sousa-Júnior, S. dos A.
Latgé, A.
Cysne, Tarik P.
Mesoscale and Nanoscale Physics
We study the spectral properties and local topology of the Kane-Mele-Rashba model on a Sierpinski Carpet (SC) fractal, constructed from a rectangular flake with an underlying honeycomb arrangement and open boundary conditions. When the system parameters correspond to a topologically trivial phase, the energy spectrum is characterized solely by bulk states that are not significantly modified by the system's fractality. For parameters corresponding to the quantum spin Hall insulator (QSHI) phase, in addition to bulk states, the energy spectrum exhibits in-gap topological states that are strongly influenced by the fractal geometry. As the fractal generation increases, the in-gap topological states acquire a staircase profile, which translates into sharp peaks in the density of states. We also show that both the QSHI and the trivial phase exhibit a large gap in the valence-projected spin spectrum, allowing the use of the local spin Chern marker (LSCM) to index the local topology of the system. Fractality does not affect this gap, allowing the application of LSCM to higher fractal generations. Our results explore the LSCM versatility, showing its potential to access local topology in complex geometries such as fractal systems.
title Topological Phases in Fractals: Local Spin Chern Marker in the Sierpinski carpet Kane-Mele-Rashba Model
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2503.02754