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1 article(s) from Deen, Lorenz

Influence of the shape and surface oxidation in the magnetization reversal of thin iron nanowires grown by focused electron beam induced deposition

Luis A. Rodríguez,
Lorenz Deen,
Rosa Córdoba,
César Magén,
Etienne Snoeck,
Bert Koopmans and
José M. De Teresa

Beilstein J. Nanotechnol. 2015, 6, 1319–1331, doi:10.3762/bjnano.6.136

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Figure 1: (a) A sketch of the FEBID process. (b) A SEM image of the nanowire with targeted width of 250 nm an...

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Figure 2: MOKE results. (a) Average magnetic hysteresis loop of the sample with width/nominal thickness of 25...

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Figure 3: Low-magnification TEM images of the iron nanowires with width of 250 nm and nominal thickness of (a...

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Figure 4: Compositional analysis through EELS of the iron nanowires with nominal thickness of (a) 10 nm and (...

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Figure 5: Sketch of the two-dimensional (y,z plane) geometrical shapes used in the micromagnetic simulation f...

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Figure 6: Coercive field (H_C) obtained from the simulations of iron nanowires with nominal width of 250 nm an...

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Figure 7: Simulated magnetization reversal with five snapshots of the magnetization state in the nanowire wit...

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Figure 8: Magnetization vector-color maps extracted from the simulations for 250 nm wide Fe nanowires with re...

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Figure 9: Magnetization vector-color maps extracted from the simulations for 250 nm wide Fe nanowires with be...

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Figure 10: Magnetization vector-color maps extracted from the simulations for 250 nm wide Fe nanowires with be...

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Figure 11: Coercive field (H_C) obtained from the simulations of nanowires as a function of t_Max for the three ...

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Published 15 Jun 2015

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