Bias voltage and temperature dependence of magnetotunneling effect

Bias voltage and temperature dependence of magnetotunneling effect

We have studied systematically the magnetotunneling properties of several metallic magnetictunnel-junction systems (Ni80Fe20–insulator–Ni80Fe20,Ni80Fe20–I–Co,Co–I–Co, Ni40Fe60–I–Co). The room-temperature magnetoresistance MR value at zero-bias ranges between 16% and 27%, depending on the spin polari...

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Veröffentlicht in:Journal of applied physics 1998-06, Vol.83 (11), p.6515-6517
Hauptverfasser: Lu, Yu, Li, X. W., Xiao, Gang, Altman, R. A., Gallagher, W. J., Marley, A., Roche, K., Parkin, S.
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container_end_page 6517
container_issue 11
container_start_page 6515
container_title Journal of applied physics
container_volume 83
creator Lu, Yu
Li, X. W.
Xiao, Gang
Altman, R. A.
Gallagher, W. J.
Marley, A.
Roche, K.
Parkin, S.
description We have studied systematically the magnetotunneling properties of several metallic magnetictunnel-junction systems (Ni80Fe20–insulator–Ni80Fe20,Ni80Fe20–I–Co,Co–I–Co, Ni40Fe60–I–Co). The room-temperature magnetoresistance MR value at zero-bias ranges between 16% and 27%, depending on the spin polarization of the electrodes. There seems to be a general bias dependence of MR in all of these systems. In particular, it requires a bias in the range of 0.22–0.23 V to suppress the maximum MR value by half. We have also measured the bias dependence of MR as a function of barrier parameters (thickness and oxidation time). At low temperature, a sharp cusplike feature appears near zero bias. In some cases, low-temperature MR values substantially exceed expectations from established spin-polarization.
doi_str_mv 10.1063/1.367813
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title Bias voltage and temperature dependence of magnetotunneling effect
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