Size and relative Co layer thickness dependence of magnetization flop in magnetic tunnel junctions exchange biased by Co/Ru/Co synthetic antiferromagnets

Y. R. Uhm; K. H. Shin; S. H. Lim

doi:10.1063/1.1452192

Size and relative Co layer thickness dependence of magnetization flop in magnetic tunnel junctions exchange biased by Co/Ru/Co synthetic antiferromagnets

Y. R. Uhm, K. H. Shin, S. H. Lim

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Computer simulation is used to examine the size and relative Co layer thickness dependence of the magnetization flop in magnetic tunnel junctions with the structure NiFe(I)(7.5nm)/AlO _x (0.7nm)/Co(I)(ynm)/Ru(0.7nm)/ Co(II)(7-ynm)/FeMn(10nm). The flop angle, which was obtained at a typical sputtering condition from an energy minimization, increases with the increase of y. The unidirectional pinning reduces the magnetization flop and its effect is greater when the Co thickness difference is smaller due to a larger energy contribution from the pinning term. Magnetoresistance hysteresis loops of "as-sputtered" samples, which were subjected to the magnetization flop, are found to vary significantly with the relative Co layer thickness, the cell size, and the magnitude of the unidirectional pinning.

Original language	English
Pages (from-to)	6929-6931
Number of pages	3
Journal	Journal of Applied Physics
Volume	91
Issue number	10 I
DOIs	https://doi.org/10.1063/1.1452192
Publication status	Published - 2002 May 15
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1063/1.1452192

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abstract = "Computer simulation is used to examine the size and relative Co layer thickness dependence of the magnetization flop in magnetic tunnel junctions with the structure NiFe(I)(7.5nm)/AlO x (0.7nm)/Co(I)(ynm)/Ru(0.7nm)/ Co(II)(7-ynm)/FeMn(10nm). The flop angle, which was obtained at a typical sputtering condition from an energy minimization, increases with the increase of y. The unidirectional pinning reduces the magnetization flop and its effect is greater when the Co thickness difference is smaller due to a larger energy contribution from the pinning term. Magnetoresistance hysteresis loops of {"}as-sputtered{"} samples, which were subjected to the magnetization flop, are found to vary significantly with the relative Co layer thickness, the cell size, and the magnitude of the unidirectional pinning.",

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T1 - Size and relative Co layer thickness dependence of magnetization flop in magnetic tunnel junctions exchange biased by Co/Ru/Co synthetic antiferromagnets

AU - Uhm, Y. R.

AU - Shin, K. H.

AU - Lim, S. H.

PY - 2002/5/15

Y1 - 2002/5/15

N2 - Computer simulation is used to examine the size and relative Co layer thickness dependence of the magnetization flop in magnetic tunnel junctions with the structure NiFe(I)(7.5nm)/AlO x (0.7nm)/Co(I)(ynm)/Ru(0.7nm)/ Co(II)(7-ynm)/FeMn(10nm). The flop angle, which was obtained at a typical sputtering condition from an energy minimization, increases with the increase of y. The unidirectional pinning reduces the magnetization flop and its effect is greater when the Co thickness difference is smaller due to a larger energy contribution from the pinning term. Magnetoresistance hysteresis loops of "as-sputtered" samples, which were subjected to the magnetization flop, are found to vary significantly with the relative Co layer thickness, the cell size, and the magnitude of the unidirectional pinning.

AB - Computer simulation is used to examine the size and relative Co layer thickness dependence of the magnetization flop in magnetic tunnel junctions with the structure NiFe(I)(7.5nm)/AlO x (0.7nm)/Co(I)(ynm)/Ru(0.7nm)/ Co(II)(7-ynm)/FeMn(10nm). The flop angle, which was obtained at a typical sputtering condition from an energy minimization, increases with the increase of y. The unidirectional pinning reduces the magnetization flop and its effect is greater when the Co thickness difference is smaller due to a larger energy contribution from the pinning term. Magnetoresistance hysteresis loops of "as-sputtered" samples, which were subjected to the magnetization flop, are found to vary significantly with the relative Co layer thickness, the cell size, and the magnitude of the unidirectional pinning.

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Size and relative Co layer thickness dependence of magnetization flop in magnetic tunnel junctions exchange biased by Co/Ru/Co synthetic antiferromagnets

Abstract

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