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Investigation on Spin Hall Magnetoresistance of NiFe/Pt Bilayer Films

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ã€Authorã€‘ LI Shu-fa;YANG Tao;HONG Wei;CHEN Chun-lei;College of Electronics and Information Engineering, Guangdong Ocean University;Institute of Physics, Chinese Academy of Sciences;

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ã€æ‘˜è¦ã€‘ ã€ç›®çš„ã€‘ç ”ç©¶NiFe/PtåŒå±‚è–„è†œä¸çš„è‡ªæ—‹éœå°”ç£é˜»(SMR),å…¶ä¸NiFeæ˜¯é“ç£é‡‘å±žå¯¼ä½“ã€‚ã€æ–¹æ³•ã€‘ç”¨æ ‡å‡†å››æŽ¢é’ˆæ³•æµ‹é‡ä¸åŒPtå±‚åŽšåº¦çš„NiFe/Ptç”µé˜»,é€šè¿‡æ‹Ÿåˆå¾—åˆ°Ptå±‚å’ŒNiFeå±‚çš„ç”µé˜»çŽ‡;æµ‹é‡NiFe/Ptè–„è†œçºµå‘ç£ç”µé˜»çš„ç£åœºä¾èµ–ç‰¹æ€§ã€‚ã€ç»“æžœã€‘Ptå±‚ç”µé˜»çŽ‡è¿œå°äºŽNiFeå±‚ç”µé˜»çŽ‡,è¡¨æ˜Žç”µæµå‡ ä¹Žä»…åœ¨Ptå±‚æµé€šã€‚æ¤å¤–,ç•Œé¢å¤„çš„è‡ªæ—‹æ··åˆç”µå¯¼åŠçºµå‘ç”µé˜»Rxxçš„ç£åœºè§’åº¦ä¾èµ–ç‰¹æ€§è¿›ä¸€æ¥è¡¨æ˜ŽRxxç”±SMRä¸»å¯¼,æ²¡æœ‰å„å‘å¼‚ç£é˜»(AMR)çš„è´¡çŒ®ã€‚åˆ†åˆ«åœ¨x,yå’Œzè½´æ–½åŠ ç£åœºå‡è§‚æµ‹åˆ°SMR,ä½†æ˜¯SMRçš„ç£é˜»çŽ‡ä¸åŒ,æœ€å¤§çº¦ä¸º0.1%ã€‚ä¸åŒç£åœºä¸‹SMRçš„è§’åº¦ä¾èµ–ç‰¹æ€§è¡¨æ˜ŽSMRå¯ç”±å°ç£åœºæŽ§åˆ¶ã€‚ã€ç»“è®ºã€‘åŸºäºŽSMRçš„æ–°åž‹ç£é˜»ä¼ æ„Ÿå™¨å¯ç”¨äºŽæµ·æ´‹ç§‘å¦æŠ€æœ¯ä¸ç£åœºä¿¡æ¯æŽ¢æµ‹ã€‚æ›´å¤š è¿˜åŽŸ

ã€Abstractã€‘ ã€Objectiveã€‘The spin Hall magentoresistance(SMR) was studied in NiFe/Pt bilayers, where NiFe is a ferromagnetic metal.ã€Methodsã€‘The Pt thickness dependence of resistance of Ni Fe/Pt was measured by the standard four-point Hall probing system, and the resistivity of Pt and NiFe layers was obtained with the fitting. Subsequently, the magnetic field dependent longitudinal magentoresistance of NiFe/Pt bilayer was measured. ã€Resultsã€‘The resistivity of Pt layer was much smaller than that of the NiFe layer, which indicates that all the current only follows in Pt layer. In addition, both the spin-mixing conductance at the interface and angular dependence of the longitudinal resistance Rxx further indicate that Rxx is dominated by SMR without the contribution of anisotropic magnetoresistance. SMR can be observed under the external field applied in x, y and z axes, respectively. However, the magnetoresistance ratio is different among them, and the maximum difference is about 0.1%. The angular dependent SMR in the NiFe/Pt bilayer under various magnetic fields indicates that SMR can be controlled by a small magnetic field. ã€Conclusionã€‘The results of this study indicates that the SMR-based magentoresistive sensor could be used for the detection of magnetic fields in marine science and technology.æ›´å¤š è¿˜åŽŸ