Electric-Field Switchable Magnetic Spin Hall Effect

Abstract

It is established that the polarity of a time-reversal-odd (T-odd) physical quantity can be reversed under the T operation. Here, we use the spin-group analysis to directly demonstrate that the T-odd magnetic spin Hall effect in ferroelectric altermagnets can be switchable by electric fields beyond the T operation. This arises from the ferroelectric switching of the nonrelativistic spin splitting, which swaps the roles of spin up and down channels in the reciprocal space. As a result, the T-odd spin conductivity that are proportional to the spin-polarized conductivity difference reverses its polarity upon polarization switching. We identify spin-group operations to switch both the polarization and the magnetic spin Hall effect simultaneously for non-centrosymmetric spin point groups. Then, we exemplify those phenomena in the ferroelectric altermagnet VOI2 monolayer based on density functional theory calculations and an effective Hamiltonian analysis. Our findings not only provide novel strategies to switch the magnetic spin Hall effect using the dissipation-free electric field but also open a promising avenue for electrically programmable spintronic devices.