| Autor: |
Papusoi, C., Sousa, R. C., Dieny, B., Prejbeanu, I. L., Conraux, Y., Mackay, K., Nozières, J. P. |
| Předmět: |
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| Zdroj: |
Journal of Applied Physics; Jul2008, Vol. 104 Issue 1, p013915, 6p, 2 Diagrams, 4 Graphs |
| Abstrakt: |
The temperature required to set the exchange bias of a ferro/antiferromagnetic (F/AF) storage bilayer as a function of the heating pulse width was studied on magnetic tunnel junctions (MTJs) of thermally assisted magnetic random access memories. Heating is produced by a pulse of electric current flowing through the junction. For sufficiently long heating pulse (>20 ns), a quasiequilibrium temperature profile is reached in the MTJ. In this stationary regime, a relationship between the temperature of the storage layer and the power of the pulse was established by using an Arrhenius–Néel model of thermal relaxation. The introduction of thermal barriers between the junction tunnel barrier and the electrodes allows a significant reduction of the power required to achieve a given temperature rise of the storage layer. When the heating pulse duration is reduced from 1 s to 2 ns, the heating power required for setting the F/AF storage bilayer increases by about 80%. This experimental observation is quantitatively interpreted by combining the Arrhenius–Néel model with thermodynamic simulations of heat diffusion with source term given by the experimentally known heating power dissipated in the tunnel barrier by Joule effect. [ABSTRACT FROM AUTHOR] |
| Databáze: |
Complementary Index |
| Externí odkaz: |
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