Analytic evaluation of first-order properties within the mean-field variant of spin-free exact two-component theory

Kirsch, Till; Engel, Franziska; Gauß, Jürgen

doi:10.1063/1.5095698

Cited by 7 publications

(6 citation statements)

References 54 publications

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“…SFDC is available in the released version of CFOUR for calculations of energies and first-order electrical properties (RELATIVISTIC=SFREE). 55 The SFX2C-mf scheme recently implemented 284 in CFOUR per-This is the author's peer reviewed, accepted manuscript. However, the online version of record will be different from this version once it has been copyedited and typeset.…”

Section: Please Cite This Article As Doi:101063/50004837mentioning

confidence: 99%

Coupled-cluster techniques for computational chemistry: The CFOUR program package

Matthews

Cheng

Harding

et al. 2020

The Journal of Chemical Physics

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502

396

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An up-to-date overview of the CFOUR program system is given. After providing a brief outline of the evolution of the program since its inception in 1989, a comprehensive presentation is given of its well-known capabilities for high-level coupled-cluster theory and its application to molecular properties. Subsequent to this generally well-known background information, much of the remaining content focuses on lesser-known capabilities of CFOUR, most of which have become available to the public only recently or will become available in the near future. Each of these new features is illustrated by a representative example, with additional discussion targeted to educating users as to classes of applications that are now enabled by these capabilities. Finally, some speculation about future directions is given, and the mode of distribution and support for CFOUR are outlined in the appendix.

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Section: Please Cite This Article As Doi:101063/50004837mentioning

confidence: 99%

Coupled-cluster techniques for computational chemistry: The CFOUR program package

Matthews

Cheng

Harding

et al. 2020

The Journal of Chemical Physics

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502

396

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“…Specifically, the evaluation of orbitalrelaxation contributions to analytic X2CMMF derivatives requires including the response of the molecular mean-field spin−orbit integrals. An analytic evaluation of electrical properties for the spin-free version of X2CMMF-CC with a solution of coupled-perturbed HF equations to account for the response of mean-field integrals 58 and an unrelaxed version of analytic X2CMMF-CCSD first derivatives 38 have been reported so far.…”

Section: Introductionmentioning

confidence: 99%

Cholesky Decomposition-Based Implementation of Relativistic Two-Component Coupled-Cluster Methods for Medium-Sized Molecules

Zhang,

Lipparini,

Stopkowicz

et al. 2024

J. Chem. Theory Comput.

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A Cholesky decomposition (CD)-based implementation of relativistic two-component coupled-cluster (CC) and equation-of-motion CC (EOM-CC) methods using an exact two-component Hamiltonian augmented with atomic-mean-field spin−orbit integrals (the X2CAMF scheme) is reported. The present CD-based implementation of X2CAMF-CC and EOM-CC methods employs atomic-orbital-based algorithms to avoid the construction of two-electron integrals and intermediates involving three and four virtual indices. Our CD-based implementation extends the applicability of X2CAMF-CC and EOM-CC methods to medium-sized molecules with the possibility to correlate around 1000 spinors. Benchmark calculations for uranium-containing small molecules were performed to assess the dependence of the CC results on the Cholesky threshold. A Cholesky threshold of 10 −4 is shown to be sufficient to maintain chemical accuracy. Example calculations to illustrate the capability of the CD-based relativistic CC methods are reported for the bond-dissociation energy of the uranium hexafluoride molecule, UF 6 , with up to quadruple-ζ basis sets, and the lowest excitation energy in the solvated uranyl ion [UO 2 2+ (H 2 O) 12 ].

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“…CC calculations using the spin-free version of X2C theory in its mean-field variant (the SFX2C-mf scheme) can provide results essentially as accurate as the SFDC-CC ones. 157 Meanwhile, the SFX2C theory in its one-electron variant (the SFX2C-1e scheme) 124,158 together with its analytic derivative formulation [159][160][161][162][163] and recontracted basis sets [164][165][166][167] offer a promising framework for scalar-relativistic CC calculations (see Refs. 168-174 for recent example applications).…”

Section: Introductionmentioning

confidence: 99%

“…Recently, a simple and accurate exact two‐component (X2C) theory 121–125,156 has been established as the method of choice for obtaining “electrons‐only” two‐component Hamiltonians. CC calculations using the spin‐free version of X2C theory in its mean‐field variant (the SFX2C‐mf scheme) can provide results essentially as accurate as the SFDC‐CC ones 157 . Meanwhile, the SFX2C theory in its one‐electron variant (the SFX2C‐1e scheme) 124,158 together with its analytic derivative formulation 159–163 and recontracted basis sets 164–167 offer a promising framework for scalar‐relativistic CC calculations (see Refs.…”

Section: Introductionmentioning

confidence: 99%

Relativistic coupled‐cluster and equation‐of‐motion coupled‐cluster methods

Liu

Cheng

2021

WIREs Comput Mol Sci

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The development of relativistic coupled‐cluster (CC) and equation‐of‐motion coupled‐cluster (EOM‐CC) methods is reviewed. An emphasis is placed on recent efforts to improve the computational efficiency of CC and EOM‐CC calculations with non‐perturbative treatments of spin‐orbit coupling (SO‐CC and EOM‐CC) by partially recovering spin symmetry in the formulations. Example calculations of electronic ground state as well as valence‐excited and core‐excited states for molecules containing heavy elements are presented to demonstrate the applicability and usefulness of the SO‐CC and EOM‐CC methods. Future directions for the development of the SO‐CC and EOM‐CC methods are also discussed. This article is categorized under: Electronic Structure Theory > Ab Initio Electronic Structure Methods

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Analytic evaluation of first-order properties within the mean-field variant of spin-free exact two-component theory

Cited by 7 publications

References 54 publications

Coupled-cluster techniques for computational chemistry: The CFOUR program package

Coupled-cluster techniques for computational chemistry: The CFOUR program package

Cholesky Decomposition-Based Implementation of Relativistic Two-Component Coupled-Cluster Methods for Medium-Sized Molecules

Relativistic coupled‐cluster and equation‐of‐motion coupled‐cluster methods

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