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Quantum Theory of Orbital Magnetization and its Generalization to Interacting Systems
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Quantum Theory of Orbital Magnetization and its Generalization to Interacting Systems
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Based on standard perturbation theory, we present a full quantum derivation of the formula for the orbital magnetization in periodic systems. The derivation is generally valid for insulators with or without a Chern number, for metals at zero or finite temperatures, and at weak as well as strong magnetic fields. The formula is shown to be valid in the presence of electron-electron interaction, provided the one-electron energies and wave functions are calculated self-consistently within the framework of the exact current and spin density functional theory.
Forward citations
Cited by 2 Pith papers
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Coupled Spin-Orbital $p$-Wave Magnetism via Structural and Magnetic Chirality
Spin-orbit coupling couples structural and magnetic chirality into homochiral and heterochiral spin-orbital p-wave phases that are distinguished by longitudinal conductivity.
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Coupled Spin-Orbital $p$-Wave Magnetism via Structural and Magnetic Chirality
Spin-orbit coupling couples structural and magnetic chirality to produce two symmetry-distinct p-wave phases with distinct longitudinal conductivity signatures.
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