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Structural dependence of quantum transport properties on topological nodal-line semimetal bilayer borophene

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arxiv 2502.03296 v1 pith:IROPMM4K submitted 2025-02-05 cond-mat.mes-hall

Structural dependence of quantum transport properties on topological nodal-line semimetal bilayer borophene

classification cond-mat.mes-hall
keywords nanoribbonstransportbilayerborophenepropertiesadditionallyanalyzedarmchair
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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This work presents the electronic and transport properties of bilayer borophene nanoribbons. In the first part, a four-orbital tight-binding model is derived by fitting the \emph{ab initio} band structure. The transport properties of armchair and zigzag bilayer borophene nanoribbons are then analyzed, both with and without periodic boundary conditions. In both scenarios, the nodal line causes conductance to increase with width and exhibit oscillations in narrow nanoribbons. Additionally, plots of current and charge density reveal that edge states have a more pronounced impact in narrower nanoribbons. Finally, uniaxial tensile strain is introduced as a tool to engineer the number of available transport channels.

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