Perpendicular magnetization switching by large spin-orbit torques from sputtered Bi2Te3

Spin-orbit torque (SOT) effect is considered as an efficient way to switch the magnetization and can inspire various high-performance spintronic devices. Recently, topological insulators (TIs) have gained extensive attention, as they are demonstrated to maintain a large effective spin Hall angle (theta(eff)(SH)), even at room temperature. However, molecular beam epitaxy (MBE), as a precise deposition method, is required to guarantee favorable surface states of TIs, which hinders the prospect of TIs towards industrial application. In this paper, we demonstrate that Bi(2)Te(3)films grown by magnetron sputtering can provide a notable SOT effect in the heterostructure with perpendicular magnetic anisotropy CoTb ferrimagnetic alloy. By harmonic Hall measurement, a high SOT efficiency (8.7 +/- 0.9 Oe/(10(9)A/m(2))) and a large theta(eff)(SH)(3.3 +/- 0.3) are obtained at room temperature. Besides, we also observe an ultra-low critical switching current density (9.7x10(9)A/m(2)). Moreover, the low-power characteristic of the sputtered Bi(2)Te(3)film is investigated by drawing a comparison with different sputtered SOT sources. Our work may provide an alternative to leverage chalcogenides as a realistic and efficient SOT source in future spintronic devices.