In previous meeting , we discussed the possibility to design the spin-orbit (SO) material by means of a combination of heavy metals (HMs). Here we demonstrate to create extra SO fields such as damping-like and field-like (FL) fields on a Ni₈₀Fe₂₀ (Py) layer via Rashba-Edelstein effect at a W/Pt interface away from the Py layer through spin diffusion in the heavy metal layer. This means that we can manipulate the effective SO fields via the interface generated by a combination of materials apart from spin Hall effect contribution, and synthesize a designable SO material. Moreover we found opposite sign of the extra FL field in an inverse stacking structure like Py/Pt/W compared with Py/W/Pt. This implies that the extra field is coming from the HMs interface which has Rashba effect due to the change of the effective field direction at the interfaces.
This leads to a new concept of “synthetic SO materials” which paves a way for seeking high efficiency or superior functionalities in SO torque.