A magnetic random access memory cell architecture is fabricated where the pinned layer is reversed by heating above a reduced blocking temperature with a current pulse crossing the junction, and cooled under an external applied field (word line), minimizing half-select switching of nonaddressed bits. In order to improve Joule heating and increase breakdown voltage, a double barrier structure was used, with a common antiferromagnetic layer (60 A MnIr) two pinned 30 A CoFe layers, and two free layers incorporating nanooxide structures. The blocking temperature was reduced to 120degreesC. A TMR of 25% was achieved for both single barrier and double barrier tunnel junctions with resistancexarea products of similar to40 Omegaxmum(2) and similar to280 Omegaxmum(2), respectively. Pinned layer writing allows the definition of a three-state memory, requiring, however, a destructive read out. A significant improvement of writing efficiency is observed with the double barrier structure. A 10 ns current pulse of 9 mA/mum2 is sufficient to heat the double barrier junctions above the blocking temperature and induce pinned layer switching. (C) 2004 American Institute of Physics.
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