In a Kondo model on the triangular lattice with nested pockets at Gamma and M, classical spins form stable chiral tetrahedral orders that gap the bands and produce a quantum anomalous Hall conductivity of 4e²/h.
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Generalized ML force fields reproduce non-collinear magnetic orders on lattices and predict voltage-driven domain-wall motion in itinerant magnets using extensions to nonequilibrium torques.
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Chiral Magnetism and Quantum Anomalous Hall Effect in a Low-energy Kondo Model on the Triangular Lattice
In a Kondo model on the triangular lattice with nested pockets at Gamma and M, classical spins form stable chiral tetrahedral orders that gap the bands and produce a quantum anomalous Hall conductivity of 4e²/h.
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Machine-learning modeling of magnetization dynamics in quasi-equilibrium and driven metallic spin systems
Generalized ML force fields reproduce non-collinear magnetic orders on lattices and predict voltage-driven domain-wall motion in itinerant magnets using extensions to nonequilibrium torques.