Giant spin Hall effect in half-Heusler alloy topological semimetal YPtBi grown at low temperature

Abstract

Half-Heusler alloy topological semimetal YPtBi is a promising candidate for an efficient spin source material having both large spin Hall angle θSH and high thermal stability. However, high-quality YPtBi thin films with low bulk carrier density are usually grown at 600C, which exceeds the limitation of 400C for back end of line (BEOL) process. Here, we investigate the crystallinity and spin Hall effect of YPtBi thin films grown at lower growth temperature down to 300C. Although θSH degraded with lowering the growth temperature to 300C due to degradation of the crystallinity, it was recovered by reducing the sputtering Ar gas pressure. We achieved a giant θSH up to 8.2 and demonstrated efficient spin-orbit torque magnetization switching by ultralow current density of ~105 A/cm2 in YPtBi grown at 300C with the Ar gas pressure of 1 Pa. Our results provide the recipe to achieve giant θSH in YPtBi grown at lower growth temperature suitable for BEOL process.