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A Unified View of Topological Phase Transition in Band Theory

Huaqing Huang, Feng Liu

2020Research24 citationsDOIOpen Access PDF

Abstract

We develop a unified view of topological phase transitions (TPTs) in solids by revising the classical band theory with the inclusion of topology. Reevaluating the band evolution from an "atomic crystal" (a normal insulator (NI)) to a solid crystal, such as a semiconductor, we demonstrate that there exists ubiquitously an intermediate phase of topological insulator (TI), whose critical transition point displays a linear scaling between electron hopping potential and average bond length, underlined by deformation-potential theory. The validity of the scaling relation is verified in various two-dimensional (2D) lattices regardless of lattice symmetry, periodicity, and form of electron hoppings, based on a generic tight-binding model. Significantly, this linear scaling is shown to set an upper bound for the degree of structural disorder to destroy the topological order in a crystalline solid, as exemplified by formation of vacancies and thermal disorder. Our work formulates a simple framework for understanding the physical nature of TPTs with significant implications in practical applications of topological materials.

Topics & Concepts

Topology (electrical circuits)Phase transitionScalingTopological orderPhysicsLattice (music)Condensed matter physicsElectronic band structureTheoretical physicsQuantum mechanicsMathematicsQuantumGeometryAcousticsCombinatoricsTopological Materials and PhenomenaGraphene research and applicationsAdvanced Condensed Matter Physics