Vacancy formation in δ-plutonium: A density-functional study in the generalized gradient approximation

2005 ◽  
Vol 71 (3) ◽  
pp. 412-417 ◽  
Author(s):  
G Robert ◽  
A Pasturel ◽  
B Siberchicot
Keyword(s):  
Density Functional ◽  
Vacancy Formation ◽  
Functional Study ◽  
Generalized Gradient ◽  
Density Functional Study ◽  
Generalized Gradient Approximation

A density functional study on the electronic structure, nature of bonding and reactivity of NO adsorbing Rh0/±n (n = 2–8) clusters

2018 ◽  
Vol 42 (2) ◽  
pp. 1121-1132 ◽  
Author(s):  
Abhijit Dutta ◽  
Paritosh Mondal
Keyword(s):  
Density Functional Theory ◽  
Electronic Structure ◽  
Gas Phase ◽  
Density Functional ◽  
Functional Study ◽  
Generalized Gradient ◽  
Functional Theory ◽  
Density Functional Study ◽  
Generalized Gradient Approximation

Systematic investigations on lowest energy NO adsorbing neutral and ionic Rhn (n = 2–8) clusters in the gas phase are executed with an all electron relativistic method using density functional theory (DFT) within the generalized gradient approximation.

A density functional study of Rh13

2013 ◽  
Vol 91 (7) ◽  
pp. 591-597 ◽  
Author(s):  
Patrizia Calaminici ◽  
José M. Vásquez-Pérez ◽  
Diego A. Espíndola Velasco
Keyword(s):  
Molecular Dynamics ◽  
Ground State ◽  
Density Functional ◽  
Local Density ◽  
Structural Parameters ◽  
Functional Study ◽  
Ground State Structure ◽  
State Structure ◽  
Generalized Gradient ◽  
Density Functional Study

A density functional study was performed for the Rh13 cluster using the linear combination of Gaussian-type orbitals density functional theory (LCGTO-DFT) approach. The calculations employed both the local density approximation (LDA) as well as the generalized gradient approximation (GGA) in combination with a quasi-relativistic effective core potential (QECP). Initial structures for the geometry optimization were taken along Born–Oppenheimer molecular dynamics (BOMD) trajectories. The BOMD trajectories were performed at different temperatures and considered different potential energy surfaces (PES). As a result, several hundred isomers of the Rh13 cluster in different spin multiplicities were optimized with the aim to determine the lowest energy structures. All geometry optimizations were performed without any symmetry restriction. A vibrational analysis was performed to characterize these isomers. Structural parameters, relative stability energy, harmonic frequencies, binding energy, and most relevant Kohn–Sham (KS) molecular orbitals are reported. The obtained results are compared with available data from the literature. This study predicts a low symmetry biplanarlike structure as the ground-state structure of Rh13 with 11 unpaired electrons. This isomer was first noticed by inspection of first-principle Born–Oppenheimer molecular dynamics (BOMD) simulations between 300 and 600 K. This represents the most extensive theoretical study on the ground-state structure of the Rh13 cluster and underlines the importance of BOMD simulations to fully explore the PES landscapes of complicated systems.

A Density Functional Study of Structure and Stability of Ni8, Ni8 + and Ni8 − Cluster

2005 ◽  
Vol 1 (4) ◽  
pp. 172-182 ◽  
Author(s):  
Patrizia Calaminici ◽  
Marcela R. Beltrán
Keyword(s):  
Density Functional ◽  
Local Density ◽  
Structural Parameters ◽  
Binding Energies ◽  
Functional Study ◽  
Generalized Gradient ◽  
Exchange Correlation ◽  
Generalized Gradient Approximation ◽  
The Stability ◽  
Anionic Cluster

Density functional calculations of neutral, cationic and anionic nickel octamer are presented. The structure optimization and frequency analysis were performed on the local density approximation (LDA) level with the exchange correlation functional by Vosko,Wilk and Nusair (VWN). Improved calculations for the stability were based on the generalized gradient approximation (GGA) where the exchange correlation functional of Perdew and Wang (PW) was used. For neutral, cationic and anionic cluster several isomers and different spin multiplicities were investigated in order to find the lowest structures. Structural parameters, relative energies, binding energies, harmonic frequencies, adiabatic ionization potential and electron affinity will be presented. The calculated values are compared with available experimental data.

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