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Light-induced half-quantized Hall effect and axion insulator

Fang Qin, Ching Hua Lee, Rui Chen

2023Physical review. B./Physical review. B28 citationsDOI

Abstract

Motivated by the recent experimental realization of the half-quantized Hall effect phase in a three-dimensional (3D) semimagnetic topological insulator [M. Mogi et al., Nat. Phys. 18, 390 (2022)], we propose a scheme for realizing the half-quantized Hall effect and axion insulator in experimentally mature 3D topological insulator heterostructures. Our approach involves optically pumping and/or magnetically doping the topological insulator surface, such as to break time reversal and gap out the Dirac cones. By toggling between left and right circularly polarized optical pumping, the sign of the half-integer Hall conductance from each of the surface Dirac cones can be controlled, such as to yield half-quantized ($0+1/2$), axion ($\ensuremath{-}1/2+1/2=0$), and Chern ($1/2+1/2=1$) insulator phases. We substantiate our results based on detailed band structure and Berry curvature numerics on the Floquet Hamiltonian in the high-frequency limit. Our paper showcases how topological phases can be obtained through mature experimental approaches such as magnetic layer doping and circularly polarized laser pumping and opens up potential device applications such as a polarization chirality-controlled topological transistor.

Topics & Concepts

PhysicsTopological insulatorBerry connection and curvatureAxionTopology (electrical circuits)Chern classCircular polarizationHamiltonian (control theory)Condensed matter physicsGeometric phaseQuantum mechanicsMagnetic fieldGeometryMathematical optimizationCombinatoricsMathematicsParticle physicsDark matterTopological Materials and PhenomenaCold Atom Physics and Bose-Einstein CondensatesQuantum and electron transport phenomena
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