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First-principles calculation of anomalous Hall and Nernst conductivity by local Berry phase

Hikaru Sawahata, Naoya Yamaguchi, Susumu Minami, Fumiyuki Ishii

2023Physical review. B./Physical review. B21 citationsDOI

Abstract

We implemented a finite-difference algorithm for computing anomalous Hall and Nernst conductivity. Based on the expression to evaluate the Berry curvature in an insulating system [J. Phys. Soc. Jpn. 74, 1674 (2005)], we extended the methods to a metallic system. We calculated anomalous Hall conductivity and Nernst conductivity in a two-dimensional ferromagnetic material ${\mathrm{FeCl}}_{2}$ and three-dimensional ferromagnetic transition-metals bcc-Fe, hcp-Co, and fcc-Ni. Our results are comparable to previously reported results computed by the Kubo formula or Wannier representation. To evaluate anomalous Nernst coefficients, the detailed Fermi-energy dependence of the anomalous Hall conductivity is required. The present method will open an efficient thermoelectric material design based on the high-throughput first-principles screening.

Topics & Concepts

Berry connection and curvatureNernst equationNernst effectCondensed matter physicsKubo formulaGeometric phaseFerromagnetismHall effectPhysicsConductivityElectrical resistivity and conductivityQuantum mechanicsElectrodeTopological Materials and PhenomenaGraphene research and applicationsQuantum and electron transport phenomena
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