Carrier-density dependence of magnetotransport in correlated Dirac semimetal CaIrO3

Abstract

We report the carrier density dependence of the magnetotransport property in the correlated Dirac semimetal CaIrO3. In the dilute carrier density region (n H 2.2 × 1016 \,cm-3) at 2 \, K, the mobility exceeds 1.0 × 105 \,cm2/Vs at 2 \, K, and the transverse magnetoresistance (MR) reaches 2,000 \,\% at 12 \, T. The analysis of quantum oscillations and Hall conductivity shows that the Fermi velocity is nearly independent of the cross-sectional area of the Fermi surface, or equivalently the carrier density, supporting a k-linear dispersion of the Dirac node. The field dependence of magnetoresistivity is nearly B-linear in the moderate carrier density region (nH ≥ 4 × 1016\,cm-3), but scales with Bα (α> 2) in the lower carrier density region. The variation of magnetoresistivity is likely affected by the enhanced long-range Coulomb interaction in the quantum limit, where Dirac electrons are subject to the magnetic confinement.