Doubly Tuned Exchange-Correlation Functionals for Mixed-Reference Spin-Flip Time-Dependent Density Functional Theory - Archive ouverte HAL
Article Dans Une Revue Journal of Chemical Theory and Computation Année : 2023

Doubly Tuned Exchange-Correlation Functionals for Mixed-Reference Spin-Flip Time-Dependent Density Functional Theory

Résumé

It is demonstrated that significant accuracy improvements in MRSF-TDDFT can be achieved by introducing two different exchange–correlation (XC) functionals for the reference Kohn–Sham DFT and the response part of the calculations, respectively. Accordingly, two new XC functionals of doubly tuned Coulomb attenuated method-vertical excitation energy (DTCAM-VEE) and DTCAM-AEE were developed on the basis of the “adaptive exact exchange (AEE)” concept in the framework of the Coulomb-attenuating XC functionals. The values by DTCAM-VEE are in excellent agreement with those of Thiel’s set [mean absolute errors (MAEs) and the interquartile range (IQR) values of 0.218 and 0.327 eV, respectively]. On the other hand, DTCAM-AEE faithfully reproduced the qualitative aspects of conical intersections (CIs) of trans-butadiene and thymine and the nonadiabatic molecular dynamics (NAMD) simulations on thymine. The latter functional also remarkably exhibited the exact 1/R asymptotic behavior of the charge-transfer state of an ethylene–tetrafluoroethylene dimer and the accurate potential energy surfaces (PESs) along the two torsional angles of retinal protonated Schiff base model with six double bonds (rPSB6). Overall, DTCAM-AEE generally performs well, as its MAE (0.237) and IQR (0.41 eV) are much improved as compared to BH&HLYP. The current idea can also be applied to other XC functionals as well as other variants of linear response theories, opening a new way of developing XC functionals
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Dates et versions

hal-04291341 , version 1 (28-06-2024)

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Konstantin Komarov, Woojin Park, Seunghoon Lee, Miquel Huix-Rotllant, Cheol Ho Choi. Doubly Tuned Exchange-Correlation Functionals for Mixed-Reference Spin-Flip Time-Dependent Density Functional Theory. Journal of Chemical Theory and Computation, 2023, 19 (21), pp.7671-7684. ⟨10.1021/acs.jctc.3c00884⟩. ⟨hal-04291341⟩
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