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W2077583886 abstract "Antiferromagnetic (AF) nanostructures from Co3O4, CoO and Cr2O3 were prepared by the nanocasting method and were characterized magnetometrically. The field and temperature dependent magnetization data suggests that the nanostructures consist of a core-shell structure. The core behaves as a regular antiferromagnet and the shell as a two-dimensional diluted antiferromagnet in a field (2d DAFF) as previously shown on Co3O4 nanowires [Benitez et al., Phys. Rev. Lett. 101, 097206 (2008)]. Here we present a more general picture on three different material systems, i.e. Co3O4, CoO and Cr2O3. In particular we consider the thermoremanent (TRM) and the isothermoremanent (IRM) magnetization curves as fingerprints in order to identify the irreversible magnetization contribution originating from the shells. The TRM/IRM fingerprints are compared to those of superparamagnetic systems, superspin glasses and 3d DAFFs. We demonstrate that TRM/IRM vs. H plots are generally useful fingerprints to identify irreversible magnetization contributions encountered in particular in nanomagnets." @default.
W2077583886 created "2016-06-24" @default.
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W2077583886 date "2011-04-19" @default.
W2077583886 modified "2023-10-09" @default.
W2077583886 title "Fingerprinting the magnetic behavior of antiferromagnetic nanostructures using remanent magnetization curves" @default.
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W2077583886 cites W1974375920 @default.
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W2077583886 cites W1981129285 @default.
W2077583886 cites W1985300265 @default.
W2077583886 cites W1986416442 @default.
W2077583886 cites W1993695245 @default.
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W2077583886 cites W2019869683 @default.
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W2077583886 doi "https://doi.org/10.1103/physrevb.83.134424" @default.
W2077583886 hasPublicationYear "2011" @default.
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