Write Margin Analysis of Spin-Orbit Torque Switching Using Field-Assisted Method

Switching dynamics of perpendicular magnetic tunnel junction (MTJ) driven by spin-orbit torque (SOT) are investigated by the LLG-based physical model considering the temperature dependence. The field-assisted switching method is proposed to develop the reliable sub-ns writing of SOT-MRAM by removing the plateau time. The conventional method of SOT-MTJ requires the large write current, leading to the area increase of access transistors and the penalty of memory density. The write current and the switching time of SOT-MTJ can be efficiently reduced at the same time by our field-assisted method using the enhanced magnetic field. The magnetic field can be provided by the Co magnetic hard mask above the MTJ. Considering an SOTMRAM array, the surrounded Co metals have insignificant influence of stray magnetic field on a MTJ at the center. With the write time of 0.2 ns, the 60% reduction of write current is achieved by our field-assisted method as compared to the conventional method. The required write current for the SOT switching decreases with the increasing temperature due to the lowering of thermal stability factor. The write Shmoo plots are further analyzed to calculate the write current margin at the various working temperature. The write time of 0.2 ns exhibits the narrow margin of write current (2.6 µA) in the temperature range from 25°C to 85°C, while the write time of 0.8 ns has the wide write margin of 102 µA. The switching behavior and the write margin are also sensitive to the magnetic field.