Laser induced ultrafast Gd 4f spin dynamics at the surface of amorphous CoxGd100-x ferrimagnetic alloys

IF 1.8 4区 物理与天体物理 Q2 SPECTROSCOPY
M. Pacé , D. Gupta , T. Ferté , M. Riepp , G. Malinowski , M. Hehn , F. Pressacco , M. Silly , F. Sirotti , C. Boeglin , N. Bergeard
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Abstract

We have investigated the laser induced ultrafast dynamics of Gd 4f spins at the surface of CoxGd100-x alloys by means of surface-sensitive and time-resolved dichroic resonant Auger spectroscopy. We have observed that the laser induced quenching of Gd 4f magnetic order at the surface of the CoxGd100-x alloys occur on a much longer time scale than that previously reported in “bulk sensitive” time-resolved experiments. In parallel, we have characterized the static structural and magnetic properties at the surface and in the bulk of these alloys by combining Physical Property Measurement System (PPMS) magnetometry with X-ray Magnetic Circular Dichroism in absorption spectroscopy (XMCD) and X-Ray Photoelectron spectroscopy (XPS). The PPMS and XMCD measurements give information regarding the composition in the bulk of the alloys. The XPS measurements show non-homogeneous composition at the surface of the alloys with a strongly increased Gd content within the first layers compared to the nominal bulk values. Such larger Gd concentration results in a reduced indirect Gd 4f spin-lattice coupling. It explains the “slower” Gd 4f demagnetization we have observed in our surface-sensitive and time-resolved measurements compared to that previously reported by “bulk-sensitive” measurements.

非晶 CoxGd100-x 铁磁合金表面的激光诱导超快 Gd 4f 自旋动力学
我们通过表面敏感和时间分辨的二色共振欧杰光谱研究了激光诱导的钆 4f 自旋在钴钆合金表面的超快动力学。我们观察到,激光诱导的 CoGd 合金表面 Gd 4f 磁序淬灭发生的时间尺度比之前 "体敏感 "时间分辨实验中报道的时间尺度要长得多。与此同时,我们还将物理性质测量系统(PPMS)磁力测量法与 X 射线磁性圆二色性吸收光谱法(XMCD)和 X 射线光电子能谱法(XPS)相结合,对这些合金表面和内部的静态结构和磁性能进行了表征。PPMS 和 XMCD 测量提供了有关合金块体成分的信息。XPS 测量显示,合金表面的成分不均匀,与标称的主体值相比,第一层的钆含量大幅增加。这种较大的钆浓度导致间接钆 4f 自旋晶格耦合降低。这也解释了为什么我们在表面敏感和时间分辨测量中观察到的 Gd 4f 去磁速度比之前 "体敏感 "测量报告的速度要 "慢"。
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来源期刊
CiteScore
3.30
自引率
5.30%
发文量
64
审稿时长
60 days
期刊介绍: The Journal of Electron Spectroscopy and Related Phenomena publishes experimental, theoretical and applied work in the field of electron spectroscopy and electronic structure, involving techniques which use high energy photons (>10 eV) or electrons as probes or detected particles in the investigation.
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