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Magnetic hedgehog lattices in noncentrosymmetric metals

Shun Okumura, Satoru Hayami, Yasuyuki Kato, Yukitoshi Motome

2020Physical review. B./Physical review. B93 citationsDOIOpen Access PDF

Abstract

The magnetic hedgehog lattice (HL) is a noncoplanar magnetic texture with a periodic array of magnetic monopoles and antimonopoles. Despite phenomenological and numerical studies thus far, there remain open issues on the microscopic origin, especially with respect to the recent experimental findings of two different types of HLs even at zero magnetic field. Here, we study the stability of the HLs for an effective spin model with long-range interactions arising from the itinerant nature of electrons. By variational calculations and simulated annealing, we find that the HLs are stabilized in the ground state at zero magnetic field by the synergetic effect of the antisymmetric exchange interactions generated by the spin-orbit coupling and the multiple-spin interactions generated by the spin-charge coupling. We also clarify the phase diagram in the magnetic fields, which includes topological phase transitions with pair annihilation of the monopoles and antimonopoles depending on the field directions.

Topics & Concepts

PhysicsCondensed matter physicsSkyrmionMagnetic fieldAntisymmetric relationPhase diagramGeometric phaseElectronQuantum mechanicsPhase (matter)Mathematical physicsMagnetic properties of thin filmsAdvanced Condensed Matter PhysicsTheoretical and Computational Physics