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Paper detail

Structural and electronic properties of realistic two-dimensional amorphous topological insulators

We investigate the structure and electronic spectra properties of two-dimensional amorphous bismuthene structures and show that these systems are topological insulators. We employ realistic modeling of amorphous geometries together with density functional theory for electronic structure calculations. We investigate the system topological properties throughout the amorphization process and find that the robustness of the topological phase is associated with the spin-orbit coupling strength and size of the pristine topological gap. Using recursive non-equilibrium Green's function, we study the electronic transport properties of nanoribbons devices with lengths comparable to experimentally synthesized materials. We find a $2e^2/h$ conductance plateau within the topological gap and an onset of Anderson localization at the trivial insulator phase.

preprint2020arXivOpen access
Bruno FocassioGabriel R. SchlederMarcio CostaAdalberto FazzioCaio Lewenkopf
cond-mat.mes-hallcond-mat.mtrl-sci
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Bruno FocassioGabriel R. SchlederMarcio CostaAdalberto FazzioCaio Lewenkopf

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