探索极性饱和与不饱和铁磁金属薄膜磁光特性的多功能方法

Journal of Physics D: Applied Physics Pub Date : 2024-04-22 DOI:10.1088/1361-6463/ad415c

Rajkumar Patra, Apoorva Sharma, Hartmut Stöcker, M. Monecke, G. Salvan, Roland Mattheis, Heidemarie Schmidt

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摘要

极性不饱和铁磁薄膜有望用于低功耗和高速非易失性电阻和光学存储器。在这里，我们使用矢量磁光广义椭偏仪（VMOGE）测量极性不饱和 Co90Fe10 和 Co40Fe40B20 薄膜在 400 nm 到 1000 nm 光谱范围内的磁光（MO）响应，测量条件是在 ±0.4 T 的平面外外加磁场中铁磁（FM）薄膜的磁化未达到饱和。利用磁光模拟软件 (MagOpS®)，我们从 Hz = +0.4 T 和 Hz = -0.4 T 时以极性配置记录的 VMOGE 数据的差分光谱中提取了极性不饱和 FM 薄膜的复 MO 耦合常数 ( Q )。

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A versatile method for the exploration of magnetooptical properties of polar saturated and unsaturated ferromagnetic metallic thin films

Polar unsaturated ferromagnetic thin films are promising for low-power and high-speed nonvolatile resistive and optical memories. Here we measure the magnetooptical (MO) response of polar unsaturated Co90Fe10 and Co40Fe40B20 thin films in the spectral range from 400 nm to 1000 nm using vector magnetooptical generalized ellipsometry (VMOGE) in an out-of-plane applied magnetic field of ±0.4 T where magnetization of the ferromagnetic (FM) thin film is not saturated. Using Magneto- Optical Simulation software (MagOpS®), we extract the complex MO coupling constant ( Q ) of the polar unsaturated FM thin films from difference spectra of VMOGE data recorded in polar configuration at Hz = +0.4 T and at Hz = −0.4 T. Presented approach opens a path to determine Q of both polar saturated and polar unsaturated FM thin films for simulating the MO properties of application-relevant optical memory multilayer structures.

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Journal of Physics D: Applied Physics

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