Electrical Control of Large Rashba Effect in Oxide Heterostructures

Abstract

Large Rashba effect efficiently tuned by an external electric field is highly desired for spintronic devices. Using first-principles calculations, we demonstrate that large Rashba splitting is locked at conduction band minimum in ferroelectric Bi(Sc/Y/La/Al/Ga/In)O3/PbTiO3 heterostructures where the position of Fermi level is precisely controlled via its stoichiometry. Fully reversible Rashba spin texture and drastic change of Rashba splitting strength with ferroelectric polarization switching are realized in the symmetric and asymmetric heterostructures, respectively. By artificially tuning the local ferroelectric displacement and the orbital hybridization, the synergetic effect of local potential gradient and orbital overlap on the dramatic change of splitting strength is confirmed. These results improve the feasibility of utilizing Rashba spin-orbit coupling in spintronic devices.