Annealing can increase the Curie temperature and net magnetization in uncapped Ga1-xMnxAs films, effects that are suppressed when the films are capped with GaA.s. Previous polarized neutron reflectometry (PNR) studies of uncapped Ga1-xMnxAs revealed a pronounced magnetization gradient that was reduced after annealing. We have extended this study to Ga1-xMnxAs capped with GaAs. We observe no increase in Curie temperature or net magnetization upon annealing. Furthermore, PNR measurements indicate that annealing produces minimal differences in the depth-dependent magnetization, as both as-grown and annealed films feature a significant magnetization gradient. These results suggest that the GaAs cap inhibits redistribution of interstitial Mn impurities during annealing. (C) 2005 American Institute of Physics.
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