Anomalous Hall effect in Fe/Au multilayers | Zendy

Qiang Zhang | Zendy; Peihao Li | Zendy; Yan Wen | Zendy; Zhenyu Zhao | Zendy; Junwei Zhang | Zendy; Aurélien Manchon | Zendy; Wenbo Mi | Zendy; Y. Peng | Zendy; X. X. Zhang | Zendy

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Anomalous Hall effect in Fe/Au multilayers

Author(s) -

Qiang Zhang,

Peihao Li,

Yan Wen,

Zhenyu Zhao,

Junwei Zhang,

Aurélien Manchon,

Wenbo Mi,

Y. Peng,

X. X. Zhang

Publication year - 2016

Publication title -

physical review. b./physical review. b

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.78

H-Index - 465

eISSN - 2469-9969

pISSN - 2469-9950

DOI - 10.1103/physrevb.94.024428

Subject(s) - hall effect , scattering , electrical resistivity and conductivity , physics , condensed matter physics , materials science , optics , quantum mechanics

To understand the interfacial scattering effect on the anomalous Hall effect (AHE), we prepared multilayers of (Fe(36/n)nm/Au(12/n)nm)n using an e-beam evaporator. This structure design allowed us to investigate the effect of interfacial scattering on the AHE, while keeping the samples' thickness and composition unchanged. We measured the (magneto)transport properties of the samples in a wide temperature range (10–310 K) with magnetic fields up to 50 kOe. We found that the scaling between the anomalous Hall resistivity (ρAHE) and longitudinal resistivity (ρxx) can be roughly described by ρAHE∼ργxx with γ=2.65±0.10 and 1.90 ± 0.04 for samples from n=1 to n=4 and samples from n=4 to n=12, respectively. Our quantitative analysis results showed that the interfacial scattering suppresses the contribution of the intrinsic mechanism and gives rise to a side-jump contribution

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