Derk P. Kooi scite author profile

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Fermionic Statistics in the Strongly Correlated Limit of Density Functional Theory

Grossi

Kooi

Giesbertz

et al. 2017

J. Chem. Theory Comput.

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Exact pieces of information on the adiabatic connection integrand, Wλ[ρ], which allows evaluation of the exchange-correlation energy of Kohn–Sham density functional theory, can be extracted from the leading terms in the strong coupling limit (λ → ∞, where λ is the strength of the electron–electron interaction). In this work, we first compare the theoretical prediction for the two leading terms in the strong coupling limit with data obtained via numerical implementation of the exact Levy functional in the simple case of two electrons confined in one dimension, confirming the asymptotic exactness of these two terms. We then carry out a first study on the incorporation of the Fermionic statistics at large coupling λ, both numerical and theoretical, confirming that spin effects enter at orders ∼e–√λ.

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A Variational Approach to London Dispersion Interactions without Density Distortion

Kooi

Gori‐Giorgi

2019

J. Phys. Chem. Lett.

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We introduce a class of variational wave functions that captures the long-range interaction between neutral systems (atoms and molecules) without changing the diagonal of the density matrix of each monomer. The corresponding energy optimization yields explicit expressions for the dispersion coefficients in terms of the ground-state pair densities of the isolated systems, providing a clean theoretical framework to build new approximations in several contexts. As the individual monomer densities are kept fixed, we can also unambiguously assess the effect of the density distortion on London dispersion interactions; for example, we obtain virtually exact dispersion coefficients between two hydrogen atoms up to C 10 and relative errors below 0.2% in other simple cases.

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Local and global interpolations along the adiabatic connection of DFT: a study at different correlation regimes

Kooi

Gori‐Giorgi

2018

Theor Chem Acc

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Interpolating the exchange–correlation energy along the density-fixed adiabatic connection of density functional theory is a promising way to build approximations that are not biased toward the weakly correlated regime. These interpolations can be performed at the global (integrated over all spaces) or at the local level, using energy densities. Many features of the relevant energy densities as well as several different ways to construct these interpolations, including comparisons between global and local variants, are investigated here for the analytically solvable Hooke’s atom series, which allows for an exploration of different correlation regimes. We also analyze different ways to define the correlation kinetic energy density, focusing on the peak in the kinetic correlation potential.

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Gradient Expansions for the Large-Coupling Strength Limit of the Møller–Plesset Adiabatic Connection

Daas

Kooi

Grooteman

et al. 2022

J. Chem. Theory Comput.

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Derk P. Kooi

Large coupling-strength expansion of the Møller–Plesset adiabatic connection: From paradigmatic cases to variational expressions for the leading terms

Fermionic Statistics in the Strongly Correlated Limit of Density Functional Theory

A Variational Approach to London Dispersion Interactions without Density Distortion

Local and global interpolations along the adiabatic connection of DFT: a study at different correlation regimes

Gradient Expansions for the Large-Coupling Strength Limit of the Møller–Plesset Adiabatic Connection

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