Giant Voltage-Controlled Magnetic Anisotropy in Strained Ir/FeCo/MgO Heterostructures

Contrary to current-controlled magnetic random access memory devices utilizing spin transfer torque (STT) or spin-orbit torques (SOT), voltage-induced magnetization switching can lead to a new paradigm enabling ultralow-power and high density instant-on nonvolatile magnetoelectric random access memory (MeRAM) devices. Employing ab initio electronic structure calculations we have investigated the effect of epitaxial strain on the voltage-controlled magnetic anisotropy (VCMA) behavior in Ir/FeCo/MgO heterostructures. We find that the magnetic anisotropy energy decreases linearly with electric field where the giant VCMA efficiency is in the range of -1742 to -1,000 fJ/(Vm) in agreement with recent experiments. Furthermore, we predict an electric-field-induced spin-reorientation which depends on epitaxial strain. These findings open interesting prospects for exploiting strain engineering and the appropriate heavy metal cap to harvest higher efficiency VCMA for the next-generation MeRAM devices.