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Pseudogauge field driven acoustoelectric current in two-dimensional hexagonal Dirac materials

Pankaj Bhalla, Giovanni Vignale, Habib Rostami

2022Physical review. B./Physical review. B21 citationsDOIOpen Access PDF

Abstract

Using a diagrammatic scheme, we study the acoustoelectric effects in two-dimensional (2D) hexagonal Dirac materials due to the sound-induced pseudogauge field. We analyze both uniform and spatially dispersive currents in response to copropagating and counterpropagating sound waves, respectively. In addition to the longitudinal acoustoelectric current, we obtain an exotic transverse charge current flowing perpendicular to the sound propagation direction owing to the interplay of transverse and longitudinal gauge field components ${j}_{T}\ensuremath{\propto}{A}_{L}{A}_{T}^{*}$. In contrast to the almost isotropic directional profile of the longitudinal uniform current, a highly anisotropic transverse component ${j}_{T}\ensuremath{\sim}sin(6\ensuremath{\theta})$ is achieved that stems from the inherited threefold symmetry of the hexagonal lattice. However, both longitudinal and transverse parts of the dispersive current are predicted to be strongly anisotropic $\ensuremath{\sim}{sin}^{2}(3\ensuremath{\theta})$ or ${cos}^{2}(3\ensuremath{\theta})$. We quantitatively estimate the pseudogauge field contribution to the acoustoelectric current that can be probed in future experiments in graphene and other 2D hexagonal Dirac materials.

Topics & Concepts

Transverse planePhysicsCondensed matter physicsAnisotropyIsotropyCurrent (fluid)Hexagonal crystal systemLongitudinal fieldMagnetic fieldLattice (music)GraphenePerpendicularHexagonal latticeField (mathematics)Quantum mechanicsGeometryAcousticsAntiferromagnetismThermodynamicsPure mathematicsStructural engineeringCrystallographyChemistryEngineeringMathematicsTopological Materials and PhenomenaGraphene research and applicationsMetamaterials and Metasurfaces Applications
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