The electronic structure calculations represent a rigorous tool for predicting and understanding the properties of materials from first principles. Within the context of the density functional theory, a pseudopotential approach is often used to reduce numerical difficulties by hiding the core singularity as well as non-valence electrons. However, designing an accurate and efficient pseudopotential is a non-trivial task as there are many, often contradictory, criteria on the pseudopotential "optimality", such as smoothness, softness (no strongly oscillating pseudo-wavefunctions), transferability (validity in different neighboring atom configurations, reproduction of scattering properties in a wide range of energies), computational efficiency...
We show that efficient norm-conserving pseudopotentials for electronic structure calculations can be...
Através do uso de pseudopotenciais e possível simplificarmos o calculo de estrutura eletrônica de át...
Even with modern computers, it is still not possible to solve the Schrodinger equation exactly for s...
The electronic structure calculations represent a rigorous tool for predicting and understanding the...
AbstractWe present an optimization algorithm to construct pseudopotentials and use it to generate a ...
Structure prediction and discovery of new materials are essential for the advancement of new technol...
Ab initio pseudopotentials are a linchpin of modern molecular and condensed matter electronic struct...
AbstractPseudopotential-based Density-Functional Theory (DFT) permits the calculation of material pr...
Despite the enormous success and popularity of density-functional theory, systematic verification an...
The increasing use of high-throughput density-functional theory (DFT) calculations in the computatio...
We wish to compute potentials for molecular dynamics simulations around a crack tip in iron that wou...
In the preceding paper, we presented an analytic reformulation of the Phillips-Kleinman (PK) pseudop...
Under a Creative Commons license.-- et al.Pseudopotential-based Density-Functional Theory (DFT) perm...
First-principles calculations in crystalline structures are often performed with a planewave basis s...
Orientador: Rogério CustodioTese (doutorado) - Universidade Estadual de Campinas, Instituto de Quími...
We show that efficient norm-conserving pseudopotentials for electronic structure calculations can be...
Através do uso de pseudopotenciais e possível simplificarmos o calculo de estrutura eletrônica de át...
Even with modern computers, it is still not possible to solve the Schrodinger equation exactly for s...
The electronic structure calculations represent a rigorous tool for predicting and understanding the...
AbstractWe present an optimization algorithm to construct pseudopotentials and use it to generate a ...
Structure prediction and discovery of new materials are essential for the advancement of new technol...
Ab initio pseudopotentials are a linchpin of modern molecular and condensed matter electronic struct...
AbstractPseudopotential-based Density-Functional Theory (DFT) permits the calculation of material pr...
Despite the enormous success and popularity of density-functional theory, systematic verification an...
The increasing use of high-throughput density-functional theory (DFT) calculations in the computatio...
We wish to compute potentials for molecular dynamics simulations around a crack tip in iron that wou...
In the preceding paper, we presented an analytic reformulation of the Phillips-Kleinman (PK) pseudop...
Under a Creative Commons license.-- et al.Pseudopotential-based Density-Functional Theory (DFT) perm...
First-principles calculations in crystalline structures are often performed with a planewave basis s...
Orientador: Rogério CustodioTese (doutorado) - Universidade Estadual de Campinas, Instituto de Quími...
We show that efficient norm-conserving pseudopotentials for electronic structure calculations can be...
Através do uso de pseudopotenciais e possível simplificarmos o calculo de estrutura eletrônica de át...
Even with modern computers, it is still not possible to solve the Schrodinger equation exactly for s...