The temperature dependence of the giant magnetoresistance ͑GMR͒ ratio, resistance and exchange-biasing field for a spin valve comprising an Ir 19 Mn 81 -biased artificial antiferromagnet ͑AAF͒ has been studied up to 325°C. Up to 200-250°C the temperature effects are reversible, at higher temperatures gradual irreversible changes are observed, probably due to atomic diffusion. The magnetoresistance effect is even at 200°C still higher than for anisotropic magnetoresistance sensors at room temperature. The resistance of the multilayer shows a maximum around 250°C. We found that this is due to the peculiar behavior of Ir-Mn, which has a negative temperature coefficient of the resistance. This provides a possibility to tune the temperature coefficient for the complete multilayer by varying the thickness of the Ir-Mn layer. The relative decrease of the exchange-biasing field as a function of temperature is much smaller for spin valves with AAF than for conventional spin valves ͑without AAF͒. Furthermore, it was demonstrated that the GMR ratio can be increased to 12% at room temperature by using a dual spin valve with two AAFs.
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