A fully ab initio spin-lattice dynamics framework integrated into VASP recovers correct magnetic ground states from random starts in four materials and supplies better training data for magnetic machine-learning potentials.
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3 Pith papers cite this work. Polarity classification is still indexing.
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UNVERDICTED 3representative citing papers
Symmetry analysis identifies 39 magnetic point groups supporting intrinsic nonlinear pure spin Hall effect with predictions for significant currents in Kramers-Weyl metals at room temperature.
Symmetry analysis and tight-binding simulations reveal magnetic and crystalline anisotropies in the superconducting diode effect of planar Josephson junctions, including gate-tunable polarity reversals.
citing papers explorer
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A Fully Ab-Initio Spin-Lattice Dynamics Framework for Magnetic Materials
A fully ab initio spin-lattice dynamics framework integrated into VASP recovers correct magnetic ground states from random starts in four materials and supplies better training data for magnetic machine-learning potentials.
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Symmetry-driven Intrinsic Nonlinear Pure Spin Hall Effect
Symmetry analysis identifies 39 magnetic point groups supporting intrinsic nonlinear pure spin Hall effect with predictions for significant currents in Kramers-Weyl metals at room temperature.
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Anisotropic Superconducting Diode Effect in Planar Josephson Junctions
Symmetry analysis and tight-binding simulations reveal magnetic and crystalline anisotropies in the superconducting diode effect of planar Josephson junctions, including gate-tunable polarity reversals.