Optimizing Topological Switching in Confined 2D-Xene Nanoribbons via Finite-Size Effects

Abstract: In a blueprint for topological quantum electronics, edge state transport in a topological insulator material can be controlled by employing a gate-induced topological quantum phase transition. While finite-size effects have been widely studied in 2D-Xenes, less attention has been devoted to finite-size effects on the gate-induced topological switching in spin-orbit coupled 2D-Xene nanoribbons. Here, by studying width dependence of electronic properties via a tight binding model, we demonstrate that finite-size… Show more