Soft X-ray absorption spectroscopy and magnetic circular dichroism under pulsed high magnetic field of Ni-Co-Mn-In metamagnetic shape memory alloy

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作者
Umetsu, R.Y. [1 ]
Yasumura, H. [1 ]
Narumi, Y. [2 ]
Kotani, Y. [3 ]
Nakamura, T. [3 ,4 ,5 ]
Nojiri, H. [1 ]
Kainuma, R. [6 ]
机构
[1] Institute for Materials Research, Tohoku University, Sendai,980-8577, Japan
[2] Center for Advanced High Magnetic Field Science, Graduate School of Science, Osaka University, Toyonaka,560-0043, Japan
[3] Center for Synchrotron Radiation Research, Japan Synchrotron Radiation Research Institute, SPring-8, Hyogo,679-5198, Japan
[4] Institute of Multidisciplinary Research for Advanced Materials, Tohoku University, Sendai,980-8577, Japan
[5] International Center for Synchrotron Radiation Innovation Smart, Tohoku University, Sendai,980-8577, Japan
[6] Department of Materials Science, Graduate School of Engineering, Tohoku University, Sendai,980-8579, Japan
来源
Journal of Alloys and Compounds | 2022年 / 890卷
关键词
In this study, X-ray absorption spectroscopy (XAS) experiments for Ni45Co5Mn36.7In13.3 metamagnetic shape memory alloy were performed under high magnetic fields up to 12 T using a pulsed magnet. Field–induced reverse transformation from martensite phase to austenite phase caused considerable changes in the magnetic circular dichroism (MCD) signals and the magnetic moments of the Mn, Ni, and Co with ferromagnetic coupling were determined. The spin magnetic moment, Mspin, and orbital magnetic moment, Morb, of Mn atom in the induced austenite ferromagnetic phase, estimated based on the sum-rule analysis, were 3.19 and 0.08 μB, respectively, resulting in an Morb / Mspin ratio of 0.03. In the element-specific magnetization curves obtained at 150 K, metamagnetic behavior associated with the field–induced reverse transformation was clearly observed and the transformation magnetic fields could be detected. There was almost no change in the magnetically averaged XAS spectrum for Mn-L2,3 edges between in the martensite and in the magnetic field-induced austenite phases, however, it was visible for Ni. This implies that Ni 3d-electrons mainly contribute to martensitic transformation. © 2021 Elsevier B.V;
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