Magnetization switching by current in an elemental ferromagnetic single layer
Abstract
Current-induced magnetization switching, a fundamental phenomenon related to spin-transport of electrons, enables non-voltaic and fast information write, facilitating applications in low-power memory and logic devices. However, magnetization switching by spin-orbit torques is usually attributed to current flowing in the nonmagnetic metal layer of multilayers or in magnetic alloys with heavy elements. Here, we report perpendicular magnetization switching induced by current flowing in an elemental ferromagnet nickel single layer. This prototype structure demonstrates that current-induced magnetization switching is a general phenomenon of magnet. The results suggest that the current induces an effective transverse magnetic field with an out-of-plane component leading to the magnetization switching, different to the conventional spin-orbit torques. Our work opens the new insight and reveals the intrinsic mechanism of current-induced torques.