M.T. Barreto scite author profile

Sequences of increasing size atom centered basis sets of Gaussian-type functions for the ground state of the CS molecule are generated with the molecular improved generator coordinate Hartree-Fock (HF) method. At the HF level, total and orbital energies and electric dipole moment and, at the second-order Mφller-Plesset (MP2) level, correlation and dissociation energies and electric dipole moment were calculated and compared with the results obtained with other Gaussian basis sets reported in the literature. Considering our largest basis set, the HF energy is in error by 56.2 µhartree and the second order correlation energy corresponds to ∼ 80% of an estimate of the limiting value. At the MP2 level, the dipole moment and the dissociation energy computed with our largest basis set are in good agreement with the corresponding experimental values. The CS molecule is considered a prototype for systems containing atoms from different rows of the periodic table.

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Gaussian basis sets for CO2 molecule generated with the molecular improved generator coordinate Hartree?Fock method

Barreto

Muniz

Jorge

et al. 2005

Theor Chem Acc

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Gaussian basis sets for low-lying excited states of neutral atoms with 2 ≤ Z ≤ 36

Barreto¹,

Neto²,

Jorge³

2004

Can. J. Chem.

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The improved generator coordinate HartreeFock method is used to generate Gaussian basis sets for low-lying excited states of neutral atoms from He (Z = 2) to Kr (Z = 36). Then, excitation energies and orbital energies of the outermost orbitals of each symmetry are calculated and compared with the corresponding values obtained with numerical HartreeFock calculations. Besides this, the basis sets for Be (3P) and F (2P) are contracted by a standard procedure and, then, enriched with polarization functions. From these basis sets, total energies, dissociation energy, and bond length for BeF are calculated and compared with results obtained with other basis sets and with experimental values. The sets for HeKr are useful in constructing basis sets for molecular calculations. Key words: improved generator coordinate HartreeFock method, Gaussian basis sets, low-lying excited states, neutral atoms.

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Accurate adapted Gaussian basis sets for helium- and beryllium-like atomic species to be used in Dirac–Fock calculations

Jorge¹,

Barreto²,

Silva

1999

Journal of Molecular Structure: THEOCHEM

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M.T. Barreto

Accurate Gaussian basis sets for the H2O molecule generated with the molecular improved generator coordinate Hartree–Fock method

Accurate Gaussian basis sets for the ground state of the CS molecule

Gaussian basis sets for CO2 molecule generated with the molecular improved generator coordinate Hartree?Fock method

Gaussian basis sets for low-lying excited states of neutral atoms with 2 ≤ Z ≤ 36

Accurate adapted Gaussian basis sets for helium- and beryllium-like atomic species to be used in Dirac–Fock calculations

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