Effects of gamma irradiation on magnetic properties of double-interface CoFeB/MgO Multifilms

Perpendicular-anisotropy magnetic tunnel junction (p-MTJ), a type of magnetic storage element, has shown outstanding performances in terms of high density, good scalability, and low power. In particular, the double-interface CoFeB/MgO p-MTJ with W spacer and bridging layers was recently demonstrated. This device shows a large tunnel magnetoresistance ratio, low junction resistance, and high robustness against high-temperature annealing. To consider this type of p-MTJ for the space environment, the gamma irradiation effects need to be evaluated. In this paper, the double-interface CoFeB/MgO multifilms are exposed to the gamma irradiation at different doses. The gamma irradiation effects on double-interface CoFeB/MgO multifilms are experimentally evaluated based on the comparison between the results of prerad and postrad magnetic properties. In the case of a low irradiation dose, the coercivity gradually increases with the increasing dose, whereas no variation is observed for the saturation magnetization. However, the magnetism is destroyed if the irradiation dose is sufficiently high. Some possible mechanisms are discussed to explain the experimental results.