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Observation of magnetoconductivity with terahertz probes for ferromagnetic Fe films
Huang Lin,Zhao Yunxiu,Le Thi Nguyen,Lee Sang-Hyuk,Peng Zhi,Kim Seongheun,Shin Hee Jun,Park Jaehun,Kim Hyun-Joong,Hong Jung-Il,Bang Junhyeok,Lee Hyun Seok,Kim Kyung Wan,Kim Dong-Hyun 한국물리학회 2022 Current Applied Physics Vol.41 No.-
Ultrafast characterization of spin-dependent transport behavior in ferromagnetic systems without contact probes has been of strong demand, recently. We have experimentally investigated spin-dependent complex conductivity for ferromagnetic Fe films of various thickness by means of terahertz time-domain transmission spectroscopy. Comparison of the transmitted terahertz wave amplitude and the spin-dependent conductivity reveals that the magnetization state of films effectively determines the complex conductivity. Non-invasive observation of spin-dependent conductivity by contact-free terahertz probe method is proven to be promising in further investigating spintronic materials, particularly on an ultrafast timescale.
Yun Huang,Yunxiu Li,Hua Zhao,Huabing Wen 대한기계학회 2020 JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY Vol.34 No.1
In order to solve the problem of packer rubber failure at variable temperature and explore the effect of temperature on constitutive model of hydrogenated nitrile butadiene rubber (HNBR) for packer,this paper concludes that the Yeoh model is the most suitable for HNBR by comparing the experimental data at room temperature with the several common classical hyperelastic models. And it also concludes with a modified Yeoh model for different temperatures by modifing the material parameters as the temperature functions. And the stress-strain relationship of HNBR at different temperature is obtained,which can be used to prove the correctness of the model. Finally, the conclusion that the contact stress between packer rubber and casing increases with the increase of temperature is obtained through the case analysis of HNBR cylinder. The HNBR constitutive model obtained in this paper can provide theoretical basis for the engineering application of HNBR materials. It also extends the field that temperature affects on the HNBR constitutive model.
Temperature-dependent Scaling Behavior of Magnetic Hysteresis Loop of CoFeB/Pd Multilayer Film
Nguyen Le Thi,Anabil Gayen,Yunxiu Zhao,Jae-Hyun Ha,Jung-Il Hong,Dong-Hyun Kim 한국자기학회 2022 Journal of Magnetics Vol.27 No.4
We report our experimental investigation on the temperature-dependent hysteresis loops and magnetic domain behaviors of CoFeB (0.4 nm)/Pd (1 nm) multilayer on polyimide substrate with a perpendicular magnetic anisotropy, by means of magneto-optical Kerr microscopy. Hysteresis characteristics such as saturation magnetization, coercivity, and hysteresis loop area with respect to the temperature have been analyzed, where powerlaw scaling behaviors are observed with microscopic magnetic domain patterns mediated by numerous nucleation sites.