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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3 Pith papers cite this work. Polarity classification is still indexing.
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Sn incorporation in MBA₂SnₓPb₁₋ₓI₄ distorts octahedra with only minor effect on structural chirality while substantially enhancing phonon chirality, yet without increasing temperature-gradient angular momentum due to mode compensation.
Molecular dynamics with ML force fields shows inorganic layers in MBA2PbI4 lose chirality faster than organic cations with rising temperature due to hydrogen bond breaking.
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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Impact of Metal Cation on Chiral Properties of 2D Halide Perovskites
Sn incorporation in MBA₂SnₓPb₁₋ₓI₄ distorts octahedra with only minor effect on structural chirality while substantially enhancing phonon chirality, yet without increasing temperature-gradient angular momentum due to mode compensation.
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Temperature-Dependent Chirality in Halide Perovskites
Molecular dynamics with ML force fields shows inorganic layers in MBA2PbI4 lose chirality faster than organic cations with rising temperature due to hydrogen bond breaking.