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Orbital magnetism and chemical shielding in the projector augmented-wave formalism

Josef W. Zwanziger, Marc Torrent, Xavier Gonze

2023Physical review. B./Physical review. B12 citationsDOIOpen Access PDF

Abstract

We show how to compute the orbital magnetization, as the first-order change of the energy due to an homogeneous magnetic field, within the projector augmented-wave (PAW) formalism of density functional theory, for systems with periodic boundary conditions. To accomplish this, magnetic translation symmetry is invoked together with a perturbative treatment of the density operator, yielding well-posed expressions that account fully for all PAW terms. The terms may be computed in a standard PAW implementation using density functional perturbation theory to compute the necessary wave-function derivatives, rather than the finite-difference approach that has been used previously. In order to obtain nontrivial magnetization, we also impose nuclear magnetic dipole moments on atomic sites of interest, which gives direct access to the chemical shielding, as measured in nuclear magnetic resonance spectroscopy. The resulting expressions have been implemented and tested, and results are shown both for atoms and solids.

Topics & Concepts

ProjectorMagnetizationPhysicsMagnetismElectromagnetic shieldingTime-dependent density functional theoryDensity functional theoryWave functionOrbital-free density functional theoryFormalism (music)DipoleQuantum mechanicsOperator (biology)Orbital magnetizationCondensed matter physicsMagnetic fieldMagnetic anisotropyChemistryVisual artsOpticsMusicalArtRepressorGeneTranscription factorBiochemistryRare-earth and actinide compoundsAdvanced NMR Techniques and ApplicationsAdvanced Chemical Physics Studies
Orbital magnetism and chemical shielding in the projector augmented-wave formalism | Litcius