Title :
Hot-spot mediated current-induced resistance change in magnetic tunnel junctions
Author :
Liu, Yaowen ; Zhang, Zongzhi ; Freitas, P.P.
Author_Institution :
INESC Microsystems & Nanotechnologies, Lisbon, Portugal
Abstract :
Experimental results on the current-induced resistance change in low-resistance (10-60 Ω·μm2) magnetic tunnel junctions with AlOx barriers are presented. The observed current-induced resistance change remains unaltered even when the ferromagnetic electrodes are saturated by an external field of 8.5 kOe and, therefore, is not related to the relative magnetization configuration of both electrodes. The critical switching current increases with decreasing barrier thickness (increasing hot-spot density), as well as with increasing junction area. Repeated switching (4000 pulses) leads to junction resistance decrease by 3%-4% and a decrease of the relative current-induced resistance change of about 20%, indicating an increase of hot spots or pinhole density upon current stressing. Critical current increases as current pulsewidth decreases.
Keywords :
ferromagnetic materials; magnetic multilayers; magnetic switching; magnetisation; tunnelling magnetoresistance; AlOx; AlOx barriers; barrier thickness; critical current; critical switching current; current pulsewidth; current stressing; external field; ferromagnetic electrodes; hot-spot density; hot-spot mediated current-induced resistance change; junction area; junction resistance decrease; low-resistance magnetic tunnel junctions; pinhole density; relative current-induced resistance change; relative magnetization configuration; repeated switching; spin electronic device; Computer integrated manufacturing; Current measurement; Electrical resistance measurement; Electrodes; Giant magnetoresistance; Magnetic field measurement; Magnetic switching; Magnetic tunneling; Magnetization; Switches;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2003.815727
