Understanding the physical properties of magnetic skyrmions is important for fundamental research with the aim to develop new spintronic device paradigms where both logic and memory can be integrated at the same level. Here, we show a universal model based on the micromagnetic formalism that can be used to study skyrmion stability as a function of magnetic field and temperature. We consider ultrathin, circular ferromagnetic magnetic dots. Our results show that magnetic skyrmions with a small radius - compared to the dot radius - are always metastable, while large radius skyrmions form a stable ground state. The change of energy profile determines the weak (strong) size dependence of the metastable (stable) skyrmion as a function of temperature and/or field. © 2018 American Physical Society.
Origin of temperature and field dependence of magnetic skyrmion size in ultrathin nanodots
Ricci, M.;
2018-01-01
Abstract
Understanding the physical properties of magnetic skyrmions is important for fundamental research with the aim to develop new spintronic device paradigms where both logic and memory can be integrated at the same level. Here, we show a universal model based on the micromagnetic formalism that can be used to study skyrmion stability as a function of magnetic field and temperature. We consider ultrathin, circular ferromagnetic magnetic dots. Our results show that magnetic skyrmions with a small radius - compared to the dot radius - are always metastable, while large radius skyrmions form a stable ground state. The change of energy profile determines the weak (strong) size dependence of the metastable (stable) skyrmion as a function of temperature and/or field. © 2018 American Physical Society.| File | Dimensione | Formato | |
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PREPRINT Origin of temperature and field dependence of magnetic skyrmion size in ultrathin nanodots.pdf
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Descrizione: Tomasello, R., Guslienko, K.Y., Ricci, M., Giordano, A., Barker, J., Carpentieri, M., Chubykalo-Fesenko, O., & Finocchio, G. (2017). Origin of temperature and field dependence of magnetic skyrmion size in ultrathin nanodots. Physical Review B, 97, 060402.
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