用于控制驻留自旋波的钯铁分级合金薄膜的分子束外延

I. Yanilkin, A. Gumarov, I. Golovchanskiy, A. Kiiamov, B. Gabbasov, Roman Yusupov, Lenar Tagirov
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摘要

本研究展示了分子束外延方法沉积不同厚度铁磁性钯铁合金薄膜的能力。该方法是合成具有特殊物理特性的分级磁性材料的技术路线。详细介绍了在沉积过程中通过控制喷流池的温度来实现浓度曲线的特殊方法。利用这种技术合成了分级铁磁薄膜,并对其进行了表征,从而揭示了控制其中驻留自旋波谱的可能性。文中还讨论了在整个厚度范围内制作具有磁性轮廓的钯铁薄膜的局限性,这与喷流池的热惯性和可能的相分离有关。
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Molecular beam epitaxy of Pd-Fe graded alloy films for standing spin waves control
This study demonstrates capabilities of a molecular beam epitaxy method for the deposition of ferromagnetic Pd–Fe alloy thin films with variable compositions across film thickness. It is proposed as a technological route to synthesize graded magnetic materials possessing unusual physical properties. A particular approach to realize a concentration profile through temperature control of an effusion cell during deposition is described in detail. Using this technique, graded ferromagnetic films were synthesized and characterized to reveal the possibility of controlling the spectrum of standing spin waves in them. Limitations of creating Pd–Fe films magnetically profiled across the thickness are discussed, associated with the thermal inertia of effusion cells and possible phase separation.
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