Enhanced inter-diffusion of immiscible elements Fe/Cu at the interface of FeZr/CuZr amorphous multilayers

Sun, Ming; Rauf, Abdur; Zhang, Yidong; Sha, Gang; Peng, Guo; Yu, Zhou; Guo, Chunyu; Fang, Yini; Lan, Si; Feng, Tao; Hahn, Horst; Gleiter, Herbert

doi:10.6084/m9.figshare.5527198.v1

tmrl_a_1389773_sm8088.docx (582.53 kB)

Enhanced inter-diffusion of immiscible elements Fe/Cu at the interface of FeZr/CuZr amorphous multilayers

journal contribution

posted on 2017-10-23, 12:36 authored by Ming Sun, Abdur Rauf, Yidong Zhang, Gang Sha, Guo Peng, Zhou Yu, Chunyu Guo, Yini Fang, Si Lan, Tao Feng, Horst Hahn, Herbert Gleiter

Fe₇₅Zr₂₅/Cu₆₄Zr₃₆ amorphous multilayers were prepared by magnetron sputtering. Atom probe tomography was employed to analyze the atomic inter-diffusion at the interface of the multilayers before and after annealing (573 K, 60 min). An unexpected enhanced inter-diffusion of the immiscible elements Fe and Cu was detected at the interface of the multilayers. As the inter-diffusion in amorphous multilayers is much faster than that in the crystalline counterparts, this process may open a way to manipulate or create amorphous multilayers with new properties. This idea agrees with the observation of the variation of magnetic properties of Fe₇₅Zr₂₅/Cu₆₄Zr₃₆ amorphous multilayers.

IMPACT STATEMENT This paper reveals the enhanced atomic inter-diffusion at the interface of amorphous materials, and may open a way to manipulate or create amorphous multilayers with new properties.