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Importance of imposing gauge invariance in time-dependent density functional theory calculations with meta-generalized gradient approximations

Robin Grotjahn, Filipp Furche, Martin Kaupp

2022The Journal of Chemical Physics23 citationsDOIOpen Access PDF

Abstract

It has been known for more than a decade that the gauge variance of the kinetic energy density τ leads to additional terms in the magnetic orbital rotation Hessian used in linear-response time-dependent density functional theory (TDDFT), affecting excitation energies obtained with τ-dependent exchange–correlation functionals. While previous investigations found that a correction scheme based on the paramagnetic current density has a small effect on benchmark results, we report more pronounced effects here, in particular, for the popular M06-2X functional and for some other meta-generalized gradient approximations (mGGAs). In the first part of this communication, this is shown by a reassessment of a set of five Ni(II) complexes for which a previous benchmark study that did not impose gauge invariance has found surprisingly large errors for excitation energies obtained with M06-2X. These errors are more than halved by restoring gauge invariance. The variable importance of imposing gauge invariance for different mGGA-based functionals can be rationalized by the derivative of the mGGA exchange energy integrand with respect to τ. In the second part, a large set of valence excitations in small main-group molecules is analyzed. For M06-2X, several selected n → π* and π→π⊥* excitations are heavily gauge-dependent with average changes of −0.17 and −0.28 eV, respectively, while π→π‖* excitations are marginally affected (−0.04 eV). Similar patterns, but of the opposite signs, are found for SCAN0. The results suggest that reevaluation of previous gauge variant TDDFT results based on M06-2X and other mGGA functionals is warranted.

Topics & Concepts

Time-dependent density functional theoryDensity functional theoryGauge theoryGauge (firearms)PhysicsExcitationValence (chemistry)MathematicsQuantum mechanicsMaterials scienceMetallurgyMagnetism in coordination complexesElectron Spin Resonance StudiesAdvanced NMR Techniques and Applications
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