2022
DOI: 10.48550/arxiv.2201.07129
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Alchemical geometry relaxation

G. Domenichini1,
O. Anatole von Lilienfeld2

Abstract: We propose to relax geometries throughout chemical compound space (CCS) using alchemical perturbation density functional theory (APDFT). APDFT refers to perturbation theory involving changes in nuclear charges within approximate solutions to Schrödinger's equation. We give an analytical formula to calculate the mixed second order energy derivatives with respect to both, nuclear charges and nuclear positions (named "alchemical force"), within the restricted Hartree-Fock case. We have implemented and studied the… Show more

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“…2) via e.g. finite differences [4,6] or coupledperturbed equations [7][8][9][10], imposing significant computational cost. Recent implementations of automatic differentiation [11] in numerical libraries [12][13][14][15], and even in dedicated quantum chemistry software [16][17][18][19], hold * anatole.vonlilienfeld@univie.ac.at substantial promise to accelerate APDFT based exploration campaigns of materials compound space [20].…”
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confidence: 99%

Systematically improving alchemical energy predictions with integral transforms instead of electron density perturbations

Krug1,
Rudorff2,
Lilienfeld3
2022
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“…2) via e.g. finite differences [4,6] or coupledperturbed equations [7][8][9][10], imposing significant computational cost. Recent implementations of automatic differentiation [11] in numerical libraries [12][13][14][15], and even in dedicated quantum chemistry software [16][17][18][19], hold * anatole.vonlilienfeld@univie.ac.at substantial promise to accelerate APDFT based exploration campaigns of materials compound space [20].…”
mentioning
confidence: 99%

Systematically improving alchemical energy predictions with integral transforms instead of electron density perturbations

Krug1,
Rudorff2,
Lilienfeld3
2022
Preprint
Self Cite
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