Spin-orbital order and excitons in magnetoresistive HoBi

Abstract

The magnetism of the rock-salt fcc rare-earth monopnictide HoBi, a candidate topological material with extreme magnetoresistance, is investigated. From the Ho3+ non-Kramers J=8 spin-orbital multiplet, the cubic crystal electric field yields six nearly degenerate low-energy levels. These constitute an anisotropic magnetic moment with a Jahn-Teller-like coupling to the lattice. In the cubic phase for T>TN~=~5.72(1)~K, the paramagnetic neutron scattering is centered at k=(121212) and was fit to dominant antiferromagnetic interactions between Ho spins separated by \100\ and ferromagnetic interactions between spins displaced by \12120\. For T<TN, a type-II AFM long-range order with k=(121212) develops along with a tetragonal lattice distortion. While neutron diffraction from a multi-domain sample cannot unambiguously determine the spin orientation within a domain, the bulk magnetization, structural distortion, and our measurements of the magnetic excitations all show the easy axis coincides with the tetragonal axis. The weakly dispersive excitons for T<TN can be accounted for by a spin Hamiltonian that includes the crystal electric field and exchange interactions within the Random Phase Approximation.