[论文解读] Room-temperature perpendicular magnetization switching through giant spin-orbit torque from sputtered BixSe(1-x) topological insulator material
室温下的垂直磁化切换由溅射 BixSe(1-x) 拓扑绝缘体提供的极大自旋轨道扭矩驱动,创造了该双层系统中创纪录的自旋霍尔角和低切换电流。
The spin-orbit torque (SOT) arising from materials with large spin-orbit coupling promises a path for ultra-low power and fast magnetic-based storage and computational devices. We investigated the SOT from magnetron-sputtered BixSe(1-x) thin films in BixSe(1-x)/CoFeB heterostructures by using a dc planar Hall method. Remarkably, the spin Hall angle (SHA) was found to be as large as 18.83, which is the largest ever reported at room temperature (RT). Moreover, switching of a perpendicular CoFeB multilayer using SOT from the BixSe(1-x) has been observed with the lowest-ever switching current density reported in a bilayer system: 2.3 * 105 A/cm2 at RT. The giant SHA, smooth surface, ease of growth of the films on silicon substrate, successful growth and switching of a perpendicular CoFeB multilayer on BixSe(1-x) film opens a path for use of BixSe(1-x) topological insulator (TI) material as a spin-current generator in SOT-based memory and logic devices.
研究动机与目标
- Motivate the use of materials with large spin-orbit coupling to enable ultra-low power, fast magnetic storage and logic.
- Quantify the spin-orbit torque efficiency and switching behavior in BixSe(1-x)/CoFeB heterostructures.
- Demonstrate room-temperature perpendicular magnetization switching in a TI-based bilayer system.
提出的方法
- Fabricate magnetron-sputtered BixSe(1-x) thin films and form BixSe(1-x)/CoFeB heterostructures on silicon substrates.
- Measure spin-orbit torque using a dc planar Hall method.
- Extract the spin Hall angle from the planar Hall data.
- Demonstrate switching of a perpendicular CoFeB multilayer induced by SOT at room temperature.
- Compare switching current density with known benchmarks in bilayer systems.
实验结果
研究问题
- RQ1What is the magnitude of the spin Hall angle in sputtered BixSe(1-x) and how does it behave at room temperature?
- RQ2Can SOT from BixSe(1-x) induce reliable perpendicular magnetization switching in CoFeB multilayers at RT?
- RQ3What is the lowest switching current density achievable in this TI/ferromagnet bilayer system?
- RQ4Do these films exhibit smooth surfaces and scalable growth on silicon substrates for device integration?
主要发现
- Spin Hall angle up to 18.83 at room temperature, the largest reported in RT for this class of materials.
- Room-temperature switching of a perpendicular CoFeB multilayer driven by SOT from BixSe(1-x).
- Lowest-ever switching current density reported in a bilayer system: 2.3 × 10^5 A/cm^2 at RT.
- Giant SOT with easy growth on silicon substrates and smooth film surfaces, enabling TI-based spin-current generation for memory/logic devices.
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