Esmaeil Taghizadeh Sisakht scite author profile

Using the tight-binding (TB) approximation with inclusion of the spin-orbit interaction, we predict a topological phase transition in the electronic band structure of phosphorene in the presence of axial strains. We derive a low-energy TB Hamiltonian that includes the spin-orbit interaction for bulk phosphorene. Applying a compressive biaxial in-plane strain and perpendicular tensile strain in ranges where the structure is still stable, leads to a topological phase transition. We aslo, examine the influence of strain on zigzag phosphorene nanoribbons (zPNRs) and the formation of the corresponding protected edge states when the system is in the topological phase. For zPNRs up to a width of 100 nm the energy gap is at least three orders of magnitude larger than the thermal energy at room temperature.

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Tight-binding model investigation of the biaxial strain induced topological phase transition in GeCH3

Rezaei

Sisakht

Fazileh

et al. 2017

Phys. Rev. B

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We propose a tight-binding (TB) model, that includes spin-orbit coupling (SOC), to describe the electronic properties of methyl-substituted germanane (GeCH3). This model gives an electronic spectrum in agreement with first principle results close to the Fermi level. Using the Z2 formalism, we show that a topological phase transition from a normal insulator (NI) to a quantum spin Hall (QSH) phase occurs at 11.6% biaxial tensile strain. The sensitivity of the electronic properties of this system on strain, in particular its transition to the topological insulating phase, makes it very attractive for applications in strain sensors and other microelectronic applications. * These two authors contributed equally. † fazileh@cc.iut.ac.ir arXiv:1707.04213v1 [cond-mat.mtrl-sci]

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Esmaeil Taghizadeh Sisakht

Scaling laws of band gaps of phosphorene nanoribbons: A tight-binding calculation

Strain-induced topological phase transition in phosphorene and in phosphorene nanoribbons

Tight-binding model investigation of the biaxial strain induced topological phase transition in GeCH3

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