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Literature DB >> 26037137

Polarization of core orbitals and computation of nuclear quadrupole coupling constants using Gaussian basis sets.

Abstract

Most standard Gaussian basis sets for first row atoms, even large sets designed to converge on a 'complete basis set' limit, systematically overestimate the electric field gradient at nuclear sites for first row atoms, resulting in errors of up to 15% in the computation of nuclear quadrupole coupling constants. This error results from a failure to include tight d functions, which permit the core 1s orbitals to distort under the influence of the field of the nuclear quadrupole. Augmentation of standard basis sets with a single set of single-exponent d functions, matched to the reciprocal square of the nominal 1s radius, reduces these errors by up to 90%.

Entities: Chemical Disease Species

Keywords: Ab initio calculations; Electric field gradient; NMR; Nuclear quadrupole coupling; Rotational spectroscopy

Mesh：

Substances：
Hydrogen

Year: 2015 PMID： 26037137 PMCID： PMC4501867 DOI： 10.1016/j.jmr.2015.05.002

Source DB: PubMed Journal: J Magn Reson ISSN： 1090-7807 Impact factor: 2.229

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References

6 in total

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Journal: J Chem Phys Date: 2006-10-28 Impact factor: 3.488

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Authors: Filip Holka; Péter G Szalay; Julien Fremont; Michael Rey; Kirk A Peterson; Vladimir G Tyuterev
Journal: J Chem Phys Date: 2011-03-07 Impact factor: 3.488

Polarization of core orbitals and computation of nuclear quadrupole coupling constants using Gaussian basis sets.

1. An accurate analytic potential function for ground-state N2 from a direct-potential-fit analysis of spectroscopic data.

2. High-accuracy calculation of nuclear quadrupole moments of atomic halogens.

3. Accurate ab initio determination of the adiabatic potential energy function and the Born-Oppenheimer breakdown corrections for the electronic ground state of LiH isotopologues.

4. Experimental and theoretical studies of the electronic transitions of BeC.

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