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Probing magnetic ordered states in thin crystals of spin-orbit assisted Mott insulators using a graphene heterostructure

ORAL

Abstract

Spin-orbit driven Mott insulators such as sodium Iridate (Na2IrO3) and alpha-ruthenium chloride (α-RuCl3) present exciting properties thanks to a combination of electronic correlations, spin-orbit coupling, crystal field effects and a honeycomb arrangement of the Ir and Ru ions respectively. These materials are in close proximity to a Kitaev-Heisenberg system, yielding exciting ground states such as gapless spin liquids and a variety of ordered states. The insulating character Na2IrO3 and RuCl3 has limited experimental probes to those that don’t require charge transport, such as thermal Hall conductance, magnetic susceptibility or neutron scattering, with few works using electronic transport. Here, we present signature of magnetic ordered states in these materials through a van der Waals heterostructure that exploits the conducting character of graphene.

Presenters

  • Everardo Molina

    Physics & Astronomy, California State University, Long Beach

Authors

  • Everardo Molina

    Physics & Astronomy, California State University, Long Beach

  • Sara S Qubbaj

    Physics & Astronomy, California State University, Long Beach

  • Vikram Nagarajan

    University of California, Berkeley, Physics, University of California, Berkeley

  • Derek Bergner

    Physics & Astronomy, California State University, Long Beach

  • Isaac Arriaga

    Physics & Astronomy, California State University, Long Beach

  • Blake Koford

    Physics & Astronomy, California State University, Long Beach

  • James Analytis

    University of California, Berkeley, University of California at Berkeley, Physics, University of California, Berkeley

  • Claudia Ojeda-Aristizabal

    Department of Physics and Astronomy, California State University, Long Beach, Physics & Astronomy, California State University, Long Beach