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Chiral Magnetism and High-Temperature Skyrmions in B20-Ordered Co-Si

Balamurugan Balasubramanian, Priyanka Manchanda, Rabindra Pahari, Zhen Chen, Wenyong Zhang, Shah Valloppilly, Xingzhong Li, Anandakumar Sarella, Lanping Yue, Ahsan Ullah, Pratibha Dev, David A. Muller, Ralph Skomski, G. C. Hadjipanayis, D. J. Sellmyer

2020Physical Review Letters55 citationsDOIOpen Access PDF

Abstract

Magnets with chiral crystal structures and helical spin structures have recently attracted much attention as potential spin-electronics materials, but their relatively low magnetic-ordering temperatures are a disadvantage. While cobalt has long been recognized as an element that promotes high-temperature magnetic ordering, most Co-rich alloys are achiral and exhibit collinear rather than helimagnetic order. Crystallographically, the B20-ordered compound CoSi is an exception due to its chiral structure, but it does not exhibit any kind of magnetic order. Here, we use nonequilibrium processing to produce B20-ordered Co_{1+x}Si_{1-x} with a maximum Co solubility of x=0.043. Above a critical excess-Co content (x_{c}=0.028), the alloys are magnetically ordered, and for x=0.043, a critical temperature T_{c}=328 K is obtained, the highest among all B20-type magnets. The crystal structure of the alloy supports spin spirals caused by Dzyaloshinskii-Moriya interactions, and from magnetic measurements we estimate that the spirals have a periodicity of about 17 nm. Our density-functional calculations explain the combination of high magnetic-ordering temperature and short periodicity in terms of a quantum phase transition where excess-cobalt spins are coupled through the host matrix.

Topics & Concepts

Condensed matter physicsMagnetismMaterials scienceSpin (aerodynamics)Crystal structureSkyrmionCobaltMagnetSpinsOrder (exchange)CrystallographyPhysicsThermodynamicsChemistryQuantum mechanicsFinanceMetallurgyEconomicsMagnetic properties of thin filmsRare-earth and actinide compoundsMagnetic Properties of Alloys
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