Litcius/Paper detail

Accurate Prediction of Hall Mobilities in Two-Dimensional Materials through Gauge-Covariant Quadrupolar Contributions

Samuel Poncé, Miquel Royo, Marco Gibertini, Nicola Marzari, Massimiliano Stengel

2023Physical Review Letters44 citationsDOIOpen Access PDF

Abstract

Despite considerable efforts, accurate computations of electron-phonon and carrier transport properties of low-dimensional materials from first principles have remained elusive. By building on recent advances in the description of long-range electrostatics, we develop a general approach to the calculation of electron-phonon couplings in two-dimensional materials. We show that the nonanalytic behavior of the electron-phonon matrix elements depends on the Wannier gauge, but that a missing Berry connection restores invariance to quadrupolar order. We showcase these contributions in a MoS_{2} monolayer, calculating intrinsic drift and Hall mobilities with precise Wannier interpolations. We also find that the contributions of dynamical quadrupoles to the scattering potential are essential, and that their neglect leads to errors of 23% and 76% in the room-temperature electron and hole Hall mobilities, respectively.

Topics & Concepts

PhysicsWannier functionCondensed matter physicsQuantum tunnellingElectronPhononGauge (firearms)MobilitiesGauge theoryElectron mobilityScatteringCovariant transformationComputationQuantum mechanicsMaterials scienceMathematicsMetallurgySociologySocial scienceAlgorithmGraphene research and applicationsQuantum and electron transport phenomenaSurface and Thin Film Phenomena