Ground-state geometry, electronic structure, and bonding of the titanium-vanadium and vanadium-nickel dimers by local-spin-density LCAO techniques

1992 ◽  
Vol 96 (4) ◽  
pp. 1606-1610 ◽  
Author(s):  
Saba M. Mattar ◽  
William D. Hamilton
Keyword(s):  
Electronic Structure ◽  
Spin Density ◽  
Ground State ◽  
Local Spin ◽  
Structure And Bonding ◽  
Titanium Vanadium ◽  
Ground State Geometry

Molecular and electronic structure of ozone and thiozone from LCAO local density calculations

1985 ◽  
Vol 63 (7) ◽  
pp. 1982-1987 ◽  
Author(s):  
Mario Morin ◽  
Aniko E. Foti ◽  
Dennis R. Salahub
Keyword(s):  
Electronic Structure ◽  
Ground State ◽  
Local Minimum ◽  
Local Density ◽  
Molecular And Electronic Structure ◽  
Ground State Geometry ◽  
Good Agreement

LCAO local density calculations for ozone yield a ground state geometry in good agreement with experiment (R = 1.27 Å vs. 1.278 Å (exp.), θ = 117.5° vs. 116.8° (exp.)). A second local minimum is found about 45 kcal/mol higher for a cyclic geometry (R = 1.44 Å, θ = 60°). For S3 the calculations predict a bent ground state (R = 2.00 Å, θ = 116°) with the cyclic geometry (R = 2.125 Å, θ = 58°) about 15 kcal/mol higher.

SIC-LSD study of δ-Pu and PuO2±x

2003 ◽  
Vol 802 ◽  
Author(s):  
L. Petit ◽  
A. Svane ◽  
Z. Szotek ◽  
W. M. Temmerman
Keyword(s):  
Spin Density ◽  
Ground State ◽  
Electronic Structures ◽  
The Self ◽  
Local Spin Density Approximation ◽  
Density Approximation ◽  
Ground State Configuration ◽  
Local Spin ◽  
Δ Phase ◽  
State Configuration

ABSTRACTThe electronic structures of actinide solid systems are calculated using the self-interaction corrected local spin density approximation. Within this scheme the 5f electron manifold is considered to consist of both localized and delo-calized states, and by varying their relative proportions the energetically most favourable (ground state) configuration can be established. Specifically, we discuss elemental Pu in its δ-phase, and the effects of adding O to PuO2.

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