Title :
Microfabrication of magnetic tunnel junctions using Al as bottom conduction electrode
Author :
Han, X.F. ; Li, F.F. ; Wang, W.N. ; Zhao, S.F. ; Peng, Z.L. ; Yao, Y.D. ; Zhan, W.S. ; Han, B.S.
Author_Institution :
Inst. of Phys., Acad. Sinica, Beijing, China
Abstract :
Magnetic tunnel junctions (MTJs) with the layer structures of Ta (5 nm)/Al(20 nm)/Ni79Fe21(5 nm)/Ir22Mn78(10 nm)/Co75Fe25(4 nm)/Al(0.8 nm)-oxide/Co75Fe25(4 nm)/Ni79Fe21 (20 nm)/Ta(5 nm) were fabricated using Al as a conduction layer/electrode and lithographic methods. A high magneto-resistance ratio of 16% and 45% and resistance-area product RS of 11.8 kΩμm2 and 11.6 kΩμm2 in the as-deposited state and after annealing were attained at room temperature. After annealing, the coercivity of the free layer is about 23.4 Oe. Such MTJs can be used to fabricate the cell of magnetoresistive random access memory and other magnetic field sensors after further optimization.
Keywords :
aluminium; annealing; coercive force; magnetic multilayers; magnetic tunnelling; tunnelling magnetoresistance; 300 K; Al; Co75Fe25; Ir22Mn78; MTJs; Ni79Fe21; Ta; annealing; bottom conduction electrode; coercivity; magnetic field sensors; magnetic tunnel junctions; magnetoresistance; magnetoresistive random access memory; microfabrication; resistance-area product; Annealing; Antiferromagnetic materials; Electrodes; Gold; Iron; Magnetic materials; Magnetic sensors; Magnetic tunneling; Physics; Tunneling magnetoresistance;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2003.815714
