Orbital Hall effect in transition metals from first-principles scattering calculations

Abstract

We use first-principles scattering calculations based upon wave-function matching and implemented with a tight-binding MTO basis to evaluate the orbital Hall conductivity σ oH for Ti, V, Cr, Cu and Pt metals with temperature-induced lattice disorder. Only interatomic fluxes of orbital angular momentum are included in these estimates; intraatomic fluxes which do not contribute to the transfer of angular momentum are explicitly excluded. The resistivity and orbital Hall angle are both found to be linear in temperature so σ oH is at most weakly temperature dependent. The value of σ oH we obtain for bulk Cr is ≈ 2 × 103 (/e) \, ( \, cm)-1 which is substantially lower than previously obtained theoretical results but agrees well with experiment. In units of 103 (/e) ( \, cm)-1, the values obtained for Ti, V and Pt are 5, 6 and 7, respectively.