Anisotropic magnetoresistance in multiorbital systems

ORAL

Abstract

Magnetotransport is a useful probe for studying magnetism, electron-electron interactions, as well as the underlying symmetries of a crystal. We study the impact of an in-plane magnetic field on 2D multiorbital electron gases as a function of electron density, scattering length, temperature, and spin-orbit interactions. These parameters affect the shape of the different spin-split Fermi surfaces, which in turn is shown to set the amplitude of the anisotropic magnetoresistance and its dominant symmetry components. We comment on the validity of the relaxation-time approximation and the necessity to resort to the full Boltzmann equation.

*This work was supported by the Natural Sciences and Engineering Research Council of Canada and the Canadian Institute for Advanced Research. NB acknowledges support from the Fonds de Recherche du Québec - Nature et Technologies.

Presenters

  • Ilia Khait

    • Department of Physics, University of Toronto
    • University of Toronto

Authors

  • Ilia Khait

    • Department of Physics, University of Toronto
    • University of Toronto

  • Nazim Boudjada

    • Department of Physics, University of Toronto
    • University of Toronto

  • Arun Paramekanti

    • Department of Physics, University of Toronto
    • University of Toronto
    • Department of Physics and Centre for Quantum Materials, University of Toronto