High-coercivity magnetism in nanostructures with strong easy-plane anisotropy

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Abstract

We report the fabrication of a rare-earth-free permanent-magnet material Co3Si in the form of nanoparticles and investigate its magnetic properties by experiments and density-functional theory (DFT). The DFT calculations show that bulk Co3Si has an easy-plane anisotropy with a high K1 ≈ -64 Merg/cm3 (-6.4 MJ/m3) and magnetic polarization of 9.2 kG (0.92 T). In spite of having a negative anisotropy that generally leads to negligibly low coercivities in bulk crystals, Co3Si nanoparticles exhibit high coercivities (17.4 kOe at 10 K and 4.3 kOe at 300 K). This result is a consequence of the unique nanostructure made possible by an effective easy-axis alignment in the cluster-deposition method and explained using micromagnetic analysis as a nanoscale phenomenon involving quantum-mechanical exchange interactions.

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Balasubramanian, B., Manchanda, P., Skomski, R., Mukherjee, P., Valloppilly, S. R., Das, B., … Sellmyer, D. J. (2016). High-coercivity magnetism in nanostructures with strong easy-plane anisotropy. Applied Physics Letters, 108(15). https://doi.org/10.1063/1.4945987

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