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Current-Driven Dependence of Junction Resistance-Area Product of Magnetic Tunnel Junction

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ã€Authorã€‘ CHEN Jianî€‘Yongî€‹1,LIU Cunî€‘Yeî€‹î€ˆ1,2î€‰,CHEN Zhiî€‘Qianî€‹1,î€ƒXU Qingî€‘Yuî€‹2,NIGangî€‹2î€ƒ1î€Department of Physics, Southwest China Normal University, Chongqing 400715, China;î€ƒ2î€National Laboratory of Solid State Microstructures, Nanjing University, Nanjing Jiangsu 210093, Chinaî€ƒî€ƒ

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ã€Abstractã€‘ A series of Fe/Alî€Œ2Oî€Œ3/FeCo magnetic tunnel junction(MTJ)with a Ta buffer layer and a Ta/Fe/Ta capping layer were fabricated using ionî€‘beam sputtering technique. We examine the process that the spinî€‘polarized electrons current which follow perpendicular to the layers and scatter from the ferromagnetic layers cause the changes of the conduction and the junction resistanceî€‘area of the MTJ in the absence of applied magnetic field. The experiments show that the currentî€‘driven effect of a MTJ in the zero magnetic field depends on the injectingî€‘current intensities into the magnetic tunnel junction. We propose that the observed changes of junction resistanceî€‘area are due to excitations of injection current with a very wide range from 0 Î¼A to 10 000 Î¼A.î€ƒæ›´å¤š è¿˜åŽŸ