Review on magnetic/nonmagnetic heterojunction interface effects on spintronic MTJ devices

Abstract

Magnetic tunnel junctions (MTJs), as the core storage unit of magneto resistive random-access memory, plays important role in the cutting-edge spintronics. In the MTJ devices, there are multiple internal magnetic/nonmagnetic heterojunction structures. The heterojunction always consists of magnetic metals and magnetic insulators or nonmagnetic metals. The interface of the heterojunction has certain physical effects that can affect the performance of MTJ devices. In the review, combined with the existing research results, the physical mechanism of magnetic/non-magnetic heterojunction interface coupling is discussed. The influence of the interface effect of the heterojunction on the performance of MTJ devices is studied. The optimization method is proposed specifically. This work systematically summarizes the interface effect of magnetic/non-magnetic heterojunction, which could be the critical aspect for the device’s yield and reliability.