Abstract. In calculations of heavy-atom molecules with the shape-consistent Relativistic Effective Core Potential (RECP), only valence and some outer-core shells are treated explicitly, the shapes ...Effective core potentials are analyzed from the standpoint of the underlying frozen core approximation. The content of the pseudoorbital, the content of the potential, and the properties of both are elaborated, showing the points at which they differ from the frozen core approximation and where possible deficiencies might lie.ORCA can use effective core potentials (also called pseudopotentials) that can be useful for efficient calculations on molecules containing heavy elements as the chemically irrelevant core electrons are not explicitly part of the electronic problem and are replaced by a core potential function instead. Note, however, that ECPs are not the most ...The pseudopotential is an effective potential constructed to replace the atomic all-electron potential (full-potential) such that core states are eliminated and the valence electrons are described by pseudo-wavefunctions with significantly fewer nodes. This allows the pseudo-wavefunctions to be described with far fewer Fourier modes, thus ...A method is described for obtaining l-dependent relativistic effective core potentials (ECPs) from Dirac-Fock self-consistent field atomic wave functions. These potentials are designed for use in nonrelativistic (NR) valence electron Hartree-Fock calculations on atoms and molecules. ... and previous relativistic core potential results. For the ...A formalism is developed for obtaining ab initio effective core potentials from numerical Hartree-Fock wavefunctions and such potentials are presented for C, N, O, F, Cl, Fe, Br, and I. The effective core potentials enable one to eliminate the core electrons and the associated orthogonality constraints from electronic structure calculations on atoms and molecules.A new contraction of the basis sets associated with the Hay-Wadt relativistic effective core potentials (RECPs) for the main group and transition metal atoms are suggested, more suitable for density functional theory investigations than the previous 'double-ζ' contractions based upon Hartree-Fock atomic results. We suggest a new contraction of the basis sets associated with the Hay-Wadt ...Jan 1, 2010 · Abstract. A brief overview over the foundations and modern variants of the relativistic effective core potential method, i.e., energy-consistent and shape-consistent ab initio pseudopotentials as well as ab initio model potentials, is given. The energy-consistent ab initio pseudopotential approach is discussed in more detail, focussing on the ... ADZP electric property calculations showed to be as fast as those that use augmented effective core potential basis sets. Introduction. Polarizability is a measure of the deformability of the electron density around an atomic or molecular system. It is a key element for describing electronic structure and plays an important role in governing ...[Show full abstract] (FermiNet) with the effective core potential method, which helps to reduce the complexity of the problem by replacing inner core electrons with additional semilocal potential ...The nickel, palladium, and platinum atoms and their monohydrides are investigated using effective core potentials (ECP's) recently introduced by Hay and Wadt [J. Chem. Phys. 82, 270, 299 (1985)]. The palladium and platinum ECP's include relativistic effects. Two types of ECP's, which differ in their definition of the core region, are used in conjunction with large valence basis sets ...A consistent set of ab initio effective core potentials (ECP) has been generated for the main group elements from Na to Bi using the procedure originally developed by Kahn. The ECP's are derived from all‐electron numerical Hartree-Fock atomic wave functions and fit to analytical representations for use in molecular calculations.A new contraction of the basis sets associated with the Hay-Wadt relativistic effective core potentials (RECPs) for the main group and transition metal atoms are suggested, more suitable for density functional theory investigations than the previous 'double-ζ' contractions based upon Hartree-Fock atomic results. We suggest a new …Abstract: The ab initio model potential method and its applications to atoms, molecules, and solids are reviewed here stressing its main characteristic of enabling a common computational strategy for effective core potential calculations in molecules and embedded cluster calculations of defects in solids and surface chemistry. As an effective core potential method it is shown to be very close ...Effective core potential (ECP) integrals are amongst the most difficult one-electron integrals to calculate due to the projection operators. The radial part of these operators may include r⁰, r ...Effective core potential methods for the lanthanides Thomas R. Cundari; Thomas R. Cundari Contribution from the Center for Advanced Research in Biotechnology, National Institutes of Standards and Technology, Rockville, Maryland 20850. Department of Chemistry, Memphis State University, Memphis, Tennessee 38152.In order to extend neural network electronic structure cal-culations to larger systems, the computation complexity has to be reduced and one helpful approach is the so-called effective core potential (ECP) method (also known as pseudopotential). See Ref. [21] for a review. Electrons in each system can be divided into core electrons and valence ...Thus effective core potential methods, particularly when coupled with emerging technologies such as parallel supercomputing, constitute an exciting approach towards the goal of developing methods for addressing the chemistry of the entire Periodic Table. Acknowledgments T.R.C. wishes to acknowledge the Petroleum Research Fund (administered by ...Dec 23, 2023 · Calculate electronic excited states using neural networks with effective core potential. The essence of atomic structure theory, quantum chemistry, and computational materials science is solving the multi-electron stationary Schrödinger equation. The Quantum Monte Carlo-based neural network wave function method has surpassed traditional post ... The effective core potential (ECP) approach is one of the oldest and still one of the most frequently used methods in relativistic quantum chemistry [1, 2]. Following chemical intuition, an atom is partitioned into a core and a valence electron system. The chemically inert core of the atom is considered to be frozen. It is removedThe effective core potential and model potential methods were used in post-SCF calculations on HC1, HBr, Cl 2, and Br 2 in order to gain insight into the effect of insufficient representation of inner nodes in the valence orbitals of the approximate methods. The results show that while the correlation energy may be slightly overestimated (by 1-7%), both the electric moment functions and the ...[Show full abstract] (FermiNet) with the effective core potential method, which helps to reduce the complexity of the problem by replacing inner core electrons with additional semilocal potential ... An effective core potential is a basis function (a pseudo -orbital) that is used to “substitute” the inner (core) electrons of an atom. The pseudo-orbitals are formulated to be nodeless in the core region ( Figure 1 ). 4 It provides a relativistic effective potential for each core orbital eliminating the need for core basis functions and ... We introduce new correlation consistent effective core potentials (ccECPs) for the elements I, Te, Bi, Ag, Au, Pd, Ir, Mo, and W with 4d, 5d, 6s, and 6p valence spaces. These ccECPs are given as a sum of spin-orbit averaged relativistic effective potential (AREP) and effective spin-orbit (SO) terms.Effective core potentials are analyzed from the standpoint of the underlying frozen core approximation. The content of the pseudoorbital, the content of the potential, and the properties of both are elaborated, showing the points at which they differ from the frozen core approximation and where possible deficiencies might lie.Dec 23, 2023 · Calculate electronic excited states using neural networks with effective core potential. The essence of atomic structure theory, quantum chemistry, and computational materials science is solving the multi-electron stationary Schrödinger equation. The Quantum Monte Carlo-based neural network wave function method has surpassed traditional post ... The binary-encounter-Bethe (BEB) model of Kim and Rudd for total ionization cross-sections by electron impact is re-examined when the target is an atom with principal quantum number n⩾3, or a molecule consisting of one or more atoms with n⩾3. It is shown that the use of relativistic effective core potential (RECP) for heavy atoms removes the need for the empirical scaling used previously.Functional Theory Methods and Effective Core Potential: Prediction of Heats of Formation and Ionization Potentials for First Row Transition Metal Complexes Yue Yang, Michael N. Weaver and Kenneth M. Merz. Jr.* Quantum Theory Project Department of Chemistry University of Florida Gainesville, FL e-mail: [email protected] ground state geometries of small anionic Ag − n (n=2–9) clusters were determined in the framework of the Hartree–Fock procedure employing a relativistic effective core potential (RECP) accounting for core–valence correlation (CVC) effects. Large scale configuration interaction (CI) calculations for 5s electrons only were carried …of these issues can be resolved with the introduction of an effective core, represented as a fixed electronic potential. This potential is typically represented as a linear combination of gaussians of varying angular momenta (M. Dolg, 2000). The introduction of an ECP results in an additional term in the core Hamiltonian, over whichDec 21, 2004 · In previous work we have shown that the PBE0 hybrid density functional method with the MG3 all-electron basis set is an accurate method for calculating the atomization energies of small aluminum clusters (Al2−Al7). However, the MG3 basis set is very expensive for molecules much larger than Al13; therefore, we have developed a new effective core potential (ECP) method for aluminum to reduce ... Results of extensive all-electron and effective core potential (ECP) ab initio calculations on the ground state properties of ArH +, KrH + and XeH + are reported. It is demonstrated that, for the equilibrium distance and harmonic frequency, the ECPs combined with a hydrogen basis set of sufficient size and flexibility lead to an accuracy quite similar to the most sophisticated all-electron ...What is the basis of effective core potentail (ECP) theory? Dear researchers, When, for example, LanL2DZ basis set is used for a heavy metal such as Ag (Silver), Gaussian divides its electrons to ...The ability to efficiently and accurately predict solid-state geometries of lanthanide coordination compounds efficiently and accurately is central for the design of new ligands capable of forming stable and highly luminescent complexes. Accordingly, we present in this paper a report on the capability of various ab initio effective core potential calculations in reproducing the coordination ...The effective potential (also known as effective potential energy) combines multiple, perhaps opposing, effects into a single potential. In its basic form, it is the sum of the …Effective core potential integral and gradient evaluations are accelerated via implementation on graphical processing units (GPUs). Two simple formulas are proposed to estimate the upper bounds of ...Effective core potentials (ECPs) are a useful means of replacing the core electrons in a calculation with an effective potential, thereby eliminating the need for the core basis functions, which usually require a large set of Gaussians to describe them. In addition to replacing the core, they may be used to represent relativistic effects, which ...The effective core potential operators of the functional form first proposed by Kahn et al. 4, 5 are widely used today. The only effort in using them in a molecular calculation rests in the evaluation of their one-electron integrals which are their matrix elements with the Cartesian Gaussian functions of the basis set.We construct correlation-consistent effective core potentials (ccECPs) for a selected set of heavy atoms and f elements that are currently of significant interest in materials and chemical applications, including Y, Zr, Nb, Rh, Ta, Re, Pt, Gd, and Tb. As is customary, ccECPs consist of spin-orbit (SO) averaged relativistic effective potential (AREP) and effective SO terms.the SDD effective core potential (ECP) on the Er atom (the combined basis set is denoted here 3-21G ∼SDD). The combined basis set is applied in the density functional theory (DFT) approach, namely using Becke’s three parameter functional15 with the non-local Lee-Yang-Parr correlation functional16 (B3LYP/3-21G∼SDD treatment). …Dec 23, 2023 · Calculate electronic excited states using neural networks with effective core potential. The essence of atomic structure theory, quantum chemistry, and computational materials science is solving the multi-electron stationary Schrödinger equation. The Quantum Monte Carlo-based neural network wave function method has surpassed traditional post ... The two effective core potential schemes investigated are those of Hay and Wadt [33] (termed LANL2DZ in G aussian) and Stevens et al. [34] (CEP-31G in G aussian). In all cases, the valence basis sets of main group elements were augmented with a d-polarization function chosen from the 6-31G∗ or 6-311G∗ basis sets.ECP 4 effective core potential; DFT 4 density functional theory; IP 4 ionization potential. ECP basis set included as part of the computational package is LANL2DZ, which uses the LANL2 effec-tive core potential for the heavy atoms and a double zeta basis set for the lighter atoms. Other ECPs are available and have previously been described here.The M08-SO was used with the basis set aug-cc-pVDZ-PP and an effective core potential (ECP) to determine the more stable structure of small gold clusters, Au n (2≤n ≤ 6). The averaged relativistic effective potential and spin-orbit operator for gold atoms are included in the effective core potential used . The populational analysis was …Jun 27, 2023 · Computational studies using DFT and an effective core potential appropriate for platinum were conducted on these Pt+(acetylene) n complexes to determine their structures and to predict IR spectra corresponding to each structural isomer identified.These results are summarized in Table 1, and the Sadlej’s electric polarization method of Gaussian basis functions was applied to the double-zeta effective core potential basis sets of Stevens, Basch, Krauss, Jasien and Cundari to generate a new augmented polarized valence double-zeta set, named as pSBKJC, which is appropriate for the calculation of dynamic polarizabilities and Raman …Results of extensive all-electron and effective core potential (ECP) ab initio calculations on the ground state properties of ArH +, KrH + and XeH + are reported. It is demonstrated that, for the equilibrium distance and harmonic frequency, the ECPs combined with a hydrogen basis set of sufficient size and flexibility lead to an accuracy quite similar to the most sophisticated all-electron ...We introduce new correlation consistent effective core potentials (ccECPs) for the elements I, Te, Bi, Ag, Au, Pd, Ir, Mo, and W with 4d, 5d, 6s, and 6p valence spaces. These ccECPs are given as a sum of spin-orbit averaged relativistic effective potential (AREP) and effective spin-orbit (SO) terms.Abstract: The ab initio model potential method and its applications to atoms, molecules, and solids are reviewed here stressing its main characteristic of enabling a common computational strategy for effective core potential calculations in molecules and embedded cluster calculations of defects in solids and surface chemistry. As an effective core potential method it is shown to be very close ... We would like to show you a description here but the site won’t allow us. The M08-SO was used with the basis set aug-cc-pVDZ-PP and an effective core potential (ECP) to determine the more stable structure of small gold clusters, Au n (2≤n ≤ 6). The averaged relativistic effective potential and spin-orbit operator for gold atoms are included in the effective core potential used . The populational analysis was also ...Abstract. Density functional theory (DFT) calculations using relativistic effective core potentials (RECPs) have emerged as a robust and fast method of calculating the structural parameters and energy changes of the thermochemical reactions of actinide complexes. A comparative investigation of the performance of the Stuttgart small-core and ...Using effective core potentials to account for inner electrons enhances the precision of vertical excitation and ionization energies. This approach has proved effective in computing ground state energies for elements like Lithium to Gallium and in calculating energy levels and wave functions for atoms and molecules with second and fourth period ...Sep 15, 2020 · The problem is that an ECP is designed to produce the effective potential of core electrons, and an all-electron basis set will include basis functions meant to model the core electrons. At best, those core basis functions are poorly optimized for your problem. At worst, you will run into SCF convergence problems. A consistent set of ab initio effective core potentials (ECP) has been generated for the main group elements from Na to Bi using the procedure originally developed by Kahn. The ECP’s are derived from all‐electron numerical Hartree–Fock atomic wave functions and fit to analytical representations for use in molecular calculations. For Rb to Bi the ECP’s are …Barasiey's effective core potential [37] and by using a good quality basis set- As we have recently discussed in detail [381, this - originally atomic potential leads to an unbalanced treatment of core polarzation effects in molecules since it lacks electron-other core polarization contributions. Indeed. the OcuIations apparently exaggerate the ...Abstract. A brief overview over the foundations and modern variants of the relativistic effective core potential method, i.e., energy-consistent and shape-consistent ab initio pseudopotentials as well as ab initio model potentials, is given. The energy-consistent ab initio pseudopotential approach is discussed in more detail, focussing on the ...Good agreement between the calculated and experimental geometries was obtained. Although the size of the effective core potential (ECF) basis sets is about half or less than those of the non-ECP basis sets, 6-31G(p) and 6-311G(d,p), the obtained average errors and scale factors were comparable to those obtained using the non-ECP basis sets.It is well known that quantum-chemical calculations based on the Schrödinger equation give poor results for compounds containing heavy elements because the Schrödinger equation is nonrelativistic. 1 One of the most widely applied methods to include relativity in electronic structure methods is the use of relativistic effective core potentials (ECPs). 2 In these calculations the inner ...Moreover, the DMC method can be further integrated with other powerful molecular neural networks 22,25, periodic neural network for solids 48, neural networks with effective core potential 49 ...Recently methods have been developed [L. R. Kahn, P. Baybutt, and D. G. Truhlar, J. Chem. Phys. 65, 3826 (1976)] to replace the core electrons of atoms by ab initio effective core potentials (ECP). Valence‐electron calculations are reported on the ground states of HF, F2, HCl, LiCl, and Cl2 using ECP's for F and Cl, and the results are compared to all‐electron calculations. Significant ...The potential curve, dissociation energy, equilibrium internuclear distance, and spectroscopic constants for the ground state of the Ca2 molecule are calculated with the help of the generalized relativistic effective core potential method which allows one to exclude the inner core electrons from the calculations and to take the relativistic effects into account effectively. Extensive ...Even today, in spite of the development of fast computers and new efficient methods, the complexity of molecular calculations is rapidly increasing with the number of electrons. Quantum mechanical calculations on molecules containing first- and second-row atoms are now a routine task. The third-row atoms are certainly more complicated, owing to ...Effective core potentials (ECPs) are widely used in electronic structure calculations of molecular and condensed systems. ECPs simplify these calculations by eliminating the core electrons, which usually do not significantly contribute to the valence electronic structure. ... having in mind potential high-pressure applications. The discrepancy ...The computational investigations of lanthanide complexes using relativistic effective core potential (ECP) [60][61][62] in conjugation with density functional theory (DFT) provide accurate results ...It is shown that the use of relativistic effective core potential (RECP) for heavy atoms removes the need for the empirical scaling used previously. BEB cross-sections of Ar, Kr, Xe, Cl, Br, I ...Effective core potential (ECP) integrals are amongst the most difficult one-electron integrals to calculate due to the projection operators. The radial part of these operators may include r⁰, r ...In the effective core potential (ECP) approximation, 24–27 a fraction of chemically inert core electrons is replaced by the pseudopotential constructed to reproduce atomic Hartree-Fock or Dirac-Hartree-Fock results. This approach has enabled quantum chemical calculations to be carried out on molecules containing heavy atoms with highly …In order to extend neural network electronic structure cal-culations to larger systems, the computation complexity has to be reduced and one helpful approach is the so-called effective core potential (ECP) method (also known as pseudopotential). See Ref. [21] for a review. Electrons in each system can be divided into core electrons and valence ...The performance of popular Hartree-Fock-based effective core potentials in Hartree-Fock and density functional calculations of 3d transition metals has been evaluated by basis-set convergence studies for ten cases: the equilibrium bond dissociation energy (De) for dissociation of ground-state Ti2 to ground and excited atoms, the ground-state …Ab initio effective core potentials (ECP's) have been generated to replace the Coulomb, exchange, and core‐orthogonality effects of the chemically inert core electron in the transition metal atoms Sc to Hg. For the second and third transition series relative ECP's have been generated which also incorporate the mass-velocity and Darwin relativistic effects into the potential.Effective core potential (ECP) integrals are amongst the most difficult one-electron integrals to calculate due to the projection operators. The radial part of these operators may include r⁰, r ...Effective core potential calculations were performed by using the Los Alamos single- and double-ζ basis sets. In addition relativistic effective core potential calculations were employed.A recently developed compact effective core potential (ECP) scheme for lanthanides [T. R. Cundari and W. J. Stevens, J. Chem. Phys. 98, 5555 (1993)] is applied to molecular species—the lanthanide trihalides (LnX 3, Ln=Ce to Lu; X=F, Cl, Br, I).This research is the first ECP study of lanthanide trihalides in which 4f electrons are explicitly included in the lanthanide valence space.The electronic ground states of lanthanide atoms span the range from a closed-shell singlet (Yb 1 S) to nonet (Gd 9 D°). 1,2 The many low-lying excited states, multireference character, and relativistic effects add further complexity to their electronic structures. 3-5 Both relativistic all-electron methods and effective core potential (ECP ...I was trying to perform a geometry optimization for a palladium complex taking into account the effective core potential for Pd by using the EMSL basis set exchange web page ECP specifications but ...A new 11-electron relativistic effective core potential (11e-RECP) for Ag atom based on correlated level of theory and the associated atomic orbital (AO) basis set have been derived which allows for an accurate determination of excited states. This has been verified by comparing the calculated excited states of the dimer with experimental …1. Introduction. Relativistic effective core potential (RECP) methods, also called relativistic pseudopotential (PP) methods, are probably the most successful approximate methods for the various properties of molecules containing heavy atoms, since RECP calculations economically yield results that are very close to the all-electron results without introducing any empirical parameters [1, 2, 3, 4].Request PDF | On Jan 1, 2000, M. Dolg published Effective core potential | Find, read and cite all the research you need on ResearchGateIn previous work we have shown that the PBE0 hybrid density functional method with the MG3 all-electron basis set is an accurate method for calculating the atomization energies of small aluminum clusters (Al 2-Al 7).However, the MG3 basis set is very expensive for molecules much larger than Al 13; therefore, we have developed a new effective core potential (ECP) method for aluminum to reduce ...Moreover, the DMC method can be further integrated with other powerful molecular neural networks 22,25, periodic neural network for solids 48, neural networks with effective core potential 49 ...LANL2DZ 38 is the effective core potential from the Los Alamos group of double zeta quality based on scalar relativistic all electron calculations. The SBKJC 39 effective core potential was also tested, which has a more compact set of basis functions for the valence orbitals compared to LANL2DZ. Both LANL2DZ and SBKJC effective potentials are ...
Effective core potential basis sets. Hans Hellmann introduced pseudopotential or effective core potential in 1934, which is an approximation used to treat complex systems with simple description [76]. Pseudopotential explicitly treats only the chemically active valence electrons while the core electrons are ‘frozen’, being …. Translate swe
The ground state geometries of small anionic Ag − n (n=2-9) clusters were determined in the framework of the Hartree-Fock procedure employing a relativistic effective core potential (RECP) accounting for core-valence correlation (CVC) effects. Large scale configuration interaction (CI) calculations for 5s electrons only were carried out in order to determine the ground state energies ...The calculations used correlationconsistent effective core potentials and corresponding VDZ basis sets for both H and C atoms from pseudopotentiallibrary.org. 74, 75 Each calculation was carried ...Feb 11, 2021 · We propose a Monte Carlo method which exploits that core regions are physically independent in a molecule to almost remove their contribution to the numerical cost. The method is tantamount to computing an effective core potential on the fly, by efficiently subsampling the core regions with independent sidewalks. The removal of fluctuations in the core region enables also the dynamic in the ... For transition metals, we used the small-core, quasi-relativistic Stuttgart/Dresden effective core potential with the associated triple-ζ valence basis set (standard SDD keywords in Gaussian09). All complexes were considered in the singlet electronic state with the exception of the Mn-based systems, for which a triplet state was …An improved effective core potential (ECP) technique is described and used to give ECP parameters for the atoms of the first two rows of the periodic table. A given basis set is parametrized which allows for a direct comparison with all‐electron calculations. Extensive test calculations on first‐ and second‐row molecules using the …The Hellmann-Feynman force method is combined with the effective-core potential (ECP) method. Based on a theorem previously reported, we have added derivative AOsr' to the original basis r, and confirmed that the wavefunctions of the ECP method essentially satisfy the Hellmann-Feynman (HF) theorem.This makes it easier to apply an intuitive force concept quantitatively to molecular systems ...Jul 7, 2015 · Effective core potential integral and gradient evaluations are accelerated via implementation on graphical processing units (GPUs). Two simple formulas are proposed to estimate the upper bounds of the integrals, and these are used for screening. A sorting strategy is designed to balance the workload between GPU threads properly. The nickel, palladium, and platinum atoms and their monohydrides are investigated using effective core potentials (ECP's) recently introduced by Hay and Wadt [J. Chem. Phys. 82, 270, 299 (1985)]. The palladium and platinum ECP's include relativistic effects.An effective core potential system has been developed for heavy atoms in which relativistic effects are included in the effective potentials (EP). The EP's are based on numerical Dirac-Hartree-Fock … Expand. 204. Save. Relativistic effects in ab initio effective core potentials for molecular calculations. Applications to the uranium atomEffective core potential (ECP) integrals are amongst the most difficult one-electron integrals to calculate due to the projection operators. The radial part of these operators may include r⁰, r ...Low-lying potential energy curves of the IBr molecule are calculated by a combination of the equation of motion coupled cluster method and the spin–orbit multireference configuration interaction with single excitations, employing in both cases accurate relativistic effective core potentials and an extended valence basis set.Effective core potentials represent the interactions of atomic nuclei and inner electrons with an equivalent potential energy, simplifying the solution of multi-electron systems while preserving the characteristics of the outer electrons. By employing effective core potentials, we can enhance the precision and efficiency of the neuralIn order to extend neural network electronic structure cal-culations to larger systems, the computation complexity has to be reduced and one helpful approach is the so-called effective core potential (ECP) method (also known as pseudopotential). See Ref. [21] for a review. Electrons in each system can be divided into core electrons and valence ...Au 0 SDD. ECP bases are useful for two main reasons: reducing computational cost on systems with many metal centers, e.g. metal or metal oxide clusters or slabs. circumventing having to describe relativistic effects in deep core electrons. In metal complexes with only a few metal centers, using ECPs gives a very negligible speedup.Results of extensive all-electron and effective core potential (ECP) ab initio calculations on the ground state properties of ArH +, KrH + and XeH + are reported. It is demonstrated that, for the equilibrium distance and harmonic frequency, the ECPs combined with a hydrogen basis set of sufficient size and flexibility lead to an accuracy quite similar to the most sophisticated all-electron ....