Electrically driven resonant magnetization, spin-pumping and charge-to-spin conversion from chiral-spin modes at THz frequencies

Abstract: Chiral-spin modes are collective excitations of a spin-orbit (SO) coupled system that lead to resonances in many observables. Here we identify resonances in "cross-response", i.e., electric-field induced magnetization and magnetic-field induced electric currents, known also as the Edelstein effect and its inverse, respectively. We show that the chiral-spin modes resonantly enhance the electrically induced magnetization. As specific examples, we consider a single-valley two-dimensional electron gas with Rashba or Dresselhaus SO coupling and a two-valley Dirac system with proximity-induced Rashba and valley-Zeeman SO couplings. We suggest an architecture for a spin-pumping experiment based on THz excitation of chiral-spin modes, which would demonstrate a resonant enhancement of charge-to-spin conversion.