Litcius/Paper detail

Universal Generalization of Density Functional Theory for Static Correlation

Daniel Gibney, Jan-Niklas Boyn, David A. Mazziotti

2023Physical Review Letters25 citationsDOI

Abstract

A major challenge for density functional theory (DFT) is its failure to treat static correlation, yielding errors in predicted charges, band gaps, van der Waals forces, and reaction barriers. Here we combine one- and two-electron reduced density matrix (1- and 2-RDM) theories with DFT to obtain a universal O(N^{3}) generalization of DFT for static correlation. Using the lowest unitary invariant of the cumulant 2-RDM, we generate a 1-RDM functional theory that corrects the convexity of any DFT functional to capture static correlation in its fractional orbital occupations. Importantly, the unitary invariant yields a predictive theory by revealing the dependence of the correction's strength upon the trace of the two-electron repulsion matrix. We apply the theory to the barrier to rotation in ethylene, the relative energies of the benzynes, as well as an 11-molecule, dissociation benchmark. By inheriting the computational efficiency of DFT without sacrificing the treatment of static correlation, the theory opens new possibilities for the prediction and interpretation of significant quantum molecular effects and phenomena.

Topics & Concepts

Density functional theoryQuantum mechanicsPhysicsOrbital-free density functional theoryElectronic correlationTime-dependent density functional theoryDensity matrixPerturbation theory (quantum mechanics)Statistical physicsElectronQuantumAdvanced Chemical Physics StudiesAdvanced Physical and Chemical Molecular InteractionsVarious Chemistry Research Topics