David C. Patton scite author profile

By performing numerically precise calculations on the He 2 , Ne 2 , Ar 2 , Kr 2 , HeNe, HeAr, HeKr, NeAr, NeKr, and ArKr diatomic molecules we have determined the capacity of three popular approximations to densityfunctional theory to accurately describe bonding in these rare-gas systems. The local-density approximation, the Perdew-Wang 1991 generalized-gradient approximation, and the Perdew-Burke-Ernzerhof generalizedgradient approximation are utilized in the calculation of equilibrium bond lengths, atomization energies, and anharmonic and harmonic vibrational frequencies. We also use the density-functional-based determination of atomic polarizabilities and ionization potentials to obtain the coefficients for the long-range (1/r 6 ) attraction. Our calculations suggest that the interaction from the overlap of atomic densities is the primary binding mechanism in these systems at short range but that the long-range 1/r 6 attraction could also contribute to the total binding energy.

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Electron Attachment to a Negative Ion:e+C84−⇌
Compton
¹
,
Tuinman
²
,
Klots
³

et al. 1997
Phys. Rev. Lett.
114
0
80
1
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Strategies for Massively Parallel Local-Orbital-Based Electronic Structure Methods

Pederson

Porezag

Kortus

et al. 2000

phys. stat. sol. (b)

122

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Vibrational frequencies and intensities of small molecules: All-electron, pseudopotential, and mixed-potential methodologies

Briley¹,

Pederson²,

Jackson³

et al. 1998

Phys. Rev. B

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We describe a numerically robust strategy for implementing pseudopotentials in a way that is independent of the type of basis set employed. Applications of this method are illustrated for many small molecules and compared to all-electron calculations determined from the same computer code. In addition we introduce a mixed methodology that allows for the treatment of some atoms within an all-electron methodology and some atoms within a pseudopotential methodology. The type of bonding studied here includes both ionic and covalent systems and includes atoms from each of the first four rows of the periodic table. In addition to binding energies, structural parameters, electronic structures, and vibrational frequencies we compare vibrational intensities ͑e.g., Raman and infrared intensities͒ obtained from LDA within all-electron, mixed, and pseudopotential methodologies. We discuss issues related to timing for pseudopotentials versus all-electron when used in conjunction with local-orbital-based methods. ͓S0163-1829͑98͒05228-X͔

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David C. Patton

Simplified generalized-gradient approximation and anharmonicity: Benchmark calculations on molecules

Application of the generalized-gradient approximation to rare-gas dimers

Electron Attachment to a Negative Ion:e+C84−⇌
Compton
¹
,
Tuinman
²
,
Klots
³

et al. 1997
Phys. Rev. Lett.
114
0
80
1
View full text Add to dashboard Cite

Strategies for Massively Parallel Local-Orbital-Based Electronic Structure Methods

Vibrational frequencies and intensities of small molecules: All-electron, pseudopotential, and mixed-potential methodologies

Contact Info

Product

Resources

About

David C. Patton

Simplified generalized-gradient approximation and anharmonicity: Benchmark calculations on molecules

Application of the generalized-gradient approximation to rare-gas dimers

Electron Attachment to a Negative Ion:e+C84−⇌Compton1, Tuinman2, Klots3 et al. 1997Phys. Rev. Lett.1140801View full textAdd to dashboardCite

Strategies for Massively Parallel Local-Orbital-Based Electronic Structure Methods

Vibrational frequencies and intensities of small molecules: All-electron, pseudopotential, and mixed-potential methodologies

Contact Info

Product

Resources

About

Electron Attachment to a Negative Ion:e+C84−⇌
Compton
¹
,
Tuinman
²
,
Klots
³

et al. 1997
Phys. Rev. Lett.
114
0
80
1
View full text Add to dashboard Cite