Title :
Thermally assisted switching in exchange-biased storage layer magnetic tunnel junctions
Author :
Prejbeanu, I.L. ; Kula, W. ; Ounadjela, K. ; Sousa, R.C. ; Redon, O. ; Dieny, B. ; Nozières, J-P
Author_Institution :
URA CEACNRS, Grenoble, France
fDate :
7/1/2004 12:00:00 AM
Abstract :
A thermally assisted writing procedure is proposed in a tunnel junction based magnetic random access memory cell. The magnetic layers of the tunnel junction are both exchange-biased with antiferromagnetic layers, the reference layer having a much higher blocking temperature than the storage layer. In the operating mode, a current pulse sent through the junction generates enough heat to raise the temperature of the storage layer above its blocking temperature, without affecting the pinning of the reference layer. The concept is demonstrated here for an isolated junction using an homogeneous external magnetic field.
Keywords :
MIM devices; antiferromagnetic materials; magnetic storage; magnetic switching; tunnelling magnetoresistance; antiferromagnetic layers; antiferromagnetic materials; blocking temperature; current pulse; exchange-biased storage layer; homogeneous external magnetic field; layer pinning; magnetic layers; magnetic random access memory cell; magnetic tunnel junctions; metal insulator metal devices; thermally assisted switching; thermally assisted writing; Antiferromagnetic materials; Heating; Magnetic fields; Magnetic semiconductors; Magnetic switching; Magnetic tunneling; Magnetization; Random access memory; Temperature; Writing; Antiferromagnetic materials; MIM; devices; metal insulator metal;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2004.830395
