Add to ORKGThe neutral C-vacancy is investigated using density functional theory calculations. We show that local functionals, such as PBE, can predict the correct stability order of the different spin states, and that the success of this prediction is related to the accurate description of the local magnetic configuration. Despite the correct prediction of the stability order, the PBE functional still fails predicting the defect states correctly. Introduction of a fraction of exact exchange, as is done in hybrid functionals such as HSE06, remedies this failure, but at a steep computational cost. Since the defect states are strongly localized, the introduction of additional on-site Coulomb and exchange interactions, through the DFT +U method, is shown...
Quantum chemical calculations of the geometric and electronic structures and vertical transition ene...
AbstractNeutral and negatively charged nitrogen-vacancy centers in hydrogenated diamond nanocrystals...
The electronic states of a single neutral vacancy in diamond lattice are calculated using a Green fu...
The neutral C-vacancy is investigated using density functional theory calculations. We show that loc...
The neutral C-vacancy is investigated using density functional theory calculations. We show that loc...
The neutral C-vacancy is investigated using density functional theory calculations. We show that loc...
The neutral C-vacancy is investigated using density functional theory calculations. We show that loc...
The neutral C-vacancy is investigated using density functional theory calculations. We show that loc...
Transition metals (TM) from the first transition series are commonly used as solvent catalysts in th...
: Using a recently developed quantum embedding theory, we present first-principles calculations of s...
International audienceQuantum-mechanical calculations are performed to investigate the structural, e...
We present a density functional theory analysis of the negatively charged nitrogen-vacancy (NV) defe...
Two charge states of nitrogen-vacancy (NV) defects in diamond are modeled using density functional t...
Point defects in diamond are of high interest as candidates for realizing solid state quantum bits, ...
Density-functional theory combined with periodic boundary conditions is used to systematically study...
Quantum chemical calculations of the geometric and electronic structures and vertical transition ene...
AbstractNeutral and negatively charged nitrogen-vacancy centers in hydrogenated diamond nanocrystals...
The electronic states of a single neutral vacancy in diamond lattice are calculated using a Green fu...
The neutral C-vacancy is investigated using density functional theory calculations. We show that loc...
The neutral C-vacancy is investigated using density functional theory calculations. We show that loc...
The neutral C-vacancy is investigated using density functional theory calculations. We show that loc...
The neutral C-vacancy is investigated using density functional theory calculations. We show that loc...
The neutral C-vacancy is investigated using density functional theory calculations. We show that loc...
Transition metals (TM) from the first transition series are commonly used as solvent catalysts in th...
: Using a recently developed quantum embedding theory, we present first-principles calculations of s...
International audienceQuantum-mechanical calculations are performed to investigate the structural, e...
We present a density functional theory analysis of the negatively charged nitrogen-vacancy (NV) defe...
Two charge states of nitrogen-vacancy (NV) defects in diamond are modeled using density functional t...
Point defects in diamond are of high interest as candidates for realizing solid state quantum bits, ...
Density-functional theory combined with periodic boundary conditions is used to systematically study...
Quantum chemical calculations of the geometric and electronic structures and vertical transition ene...
AbstractNeutral and negatively charged nitrogen-vacancy centers in hydrogenated diamond nanocrystals...
The electronic states of a single neutral vacancy in diamond lattice are calculated using a Green fu...