Asier Zabalo scite author profile

Applied magnetic fields can couple to atomic displacements via generalized Lorentz forces, which are commonly expressed as gyromagnetic g factors. We develop an efficient first-principles methodology based on density functional perturbation theory to calculate this effect in both molecules and solids to linear order in the applied field. Our methodology is based on two linear-response quantities: the macroscopic polarization response to an atomic displacement (i.e., Born effective charge tensor), and the antisymmetric part of its first real-space moment (the symmetric part corresponding to the dynamical quadrupole tensor). The latter quantity is calculated via an analytical expansion of the current induced by a long-wavelength phonon perturbation, and compared to numerical derivatives of finite-wave-vector calculations. We validate our methodology in finite systems by computing the gyromagnetic g factor of several simple molecules, demonstrating excellent agreement with experiment and previous density functional theory and quantum chemistry calculations. In addition, we demonstrate the utility of our method in extended systems by computing the energy splitting of the low-frequency transverse-optical phonon mode of cubic SrTiO 3 in the presence of a magnetic field.

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Asier Zabalo

Switching a Polar Metal via Strain Gradients

Rotational g factors and Lorentz forces of molecules and solids from density functional perturbation theory

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