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Title: Tailoring dual reversal modes by helicity control in ferromagnetic nanotubes
Author: Salinas, H. D.
Restrepo, Johans
Iglesias, Òscar
Keywords: Magnetisme
Transformacions de fase (Física estadística)
Phase transformations (Statistical physics)
Issue Date: 13-Feb-2020
Publisher: American Physical Society
Abstract: We investigate the effects of the competition between exchange (J) and dipolar (D) interactions on the magnetization reversal mechanisms of ferromagnetic nanotubes. Using first atomistic Monte Carlo simulations for a model with Heisenberg spins on a cylindrical surface, we compute hysteresis loops for a wide range of the γ=D/J parameter, characterizing the reversal behavior in terms of the cylindrical magnetization components along the tube length. For γ's close to the value for which helical (H) states are energetically favorable at zero applied field, we show that the hysteresis loops can occur in four different classes that are combinations of two reversal modes with well-differentiated coercivities with probabilities that depend on the tube length and radius. This variety in the reversal modes is found to be linked to the metastability of the H states during the reversal that induces different paths followed along the energy landscape as the field is changed. We further demonstrate that reversal by either of the two modes can be induced by tailoring the nanotube initial state so circular states with equal or contrary chirality are formed at the ends, thus achieving low or high coercive fields at will without changing γ. Finally, the results of additional micromagnetic simulations performed on tubes with a similar aspect ratio show that dual switching modes and its tailoring can also be observed in tubes of microscopic dimensions.
Note: Reproducció del document publicat a:
It is part of: Physical Review B, 2020, vol. 101, num. 5, p. 054419-1-054419-12
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ISSN: 2469-9950
Appears in Collections:Articles publicats en revistes (Física de la Matèria Condensada)

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