Multiferrons are defined as elementary excitations with both electric and magnetic character that tilt polarization, generate magnetization via dynamical multiferroicity, and carry quadrupole and octupole moments, as computed for LiNbO3.
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6 Pith papers cite this work. Polarity classification is still indexing.
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Floquet driving with CPL creates an odd-parity altermagnetic HOTI in Cr₂CH₂ monolayer with preserved C₃-protected corner states over a range of driving strengths.
r²SCANY@r²SCANX uses distinct exact-exchange fractions for density (X) and energy (Y) to reduce self-interaction errors and improve band gaps, magnetic moments, and oxidation energies in 20 strongly correlated transition-metal oxides over r²SCAN and DFT+U.
Monolayer CoBr2 shows dominant t2g-eg hopping that strengthens ferromagnetic Kitaev interactions, leading to a J1-J3 phase diagram with ferromagnetic, stripy, spiral, 120-degree antiferromagnetic, Z2 vortex crystal, and bond-nematic phases.
Spin-orbit coupling enriches spin-phonon interactions in α-RuCl₃ to produce finite phonon Berry curvatures and a thermal Hall effect that qualitatively matches measured κ_xy field dependence.
First-principles study identifies four stable 2D perovskite oxide monolayers (STO-ML, LAO-ML, KTO-ML, BFO-ML) with wide-gap semiconducting or ferromagnetic metallic properties and large out-of-plane dipoles.
citing papers explorer
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Lattice excitations with finite polarization and magnetization
Multiferrons are defined as elementary excitations with both electric and magnetic character that tilt polarization, generate magnetization via dynamical multiferroicity, and carry quadrupole and octupole moments, as computed for LiNbO3.
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Floquet-Engineered Odd-Parity Altermagnetic Higher-Order Topology in a Two-Dimensional Antiferromagnet Cr$_2$CH$_2$
Floquet driving with CPL creates an odd-parity altermagnetic HOTI in Cr₂CH₂ monolayer with preserved C₃-protected corner states over a range of driving strengths.
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Reducing Self-Interaction Error in Transition-Metal Oxides with Different Exact-Exchange Fractions for Energy and Density
r²SCANY@r²SCANX uses distinct exact-exchange fractions for density (X) and energy (Y) to reduce self-interaction errors and improve band gaps, magnetic moments, and oxidation energies in 20 strongly correlated transition-metal oxides over r²SCAN and DFT+U.
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Spin-orbit driven $J_{eff} = 1/2$ magnetism in a d$^7$ triangular-lattice monolayer cobaltate
Monolayer CoBr2 shows dominant t2g-eg hopping that strengthens ferromagnetic Kitaev interactions, leading to a J1-J3 phase diagram with ferromagnetic, stripy, spiral, 120-degree antiferromagnetic, Z2 vortex crystal, and bond-nematic phases.
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Theory of Intrinsic Phonon Thermal Hall Effect in $\alpha$-RuCl$_3$
Spin-orbit coupling enriches spin-phonon interactions in α-RuCl₃ to produce finite phonon Berry curvatures and a thermal Hall effect that qualitatively matches measured κ_xy field dependence.
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Stable structures and electronic properties of perovskite oxide monolayers
First-principles study identifies four stable 2D perovskite oxide monolayers (STO-ML, LAO-ML, KTO-ML, BFO-ML) with wide-gap semiconducting or ferromagnetic metallic properties and large out-of-plane dipoles.