Ab initio pseudopotentials are a linchpin of modern molecular and condensed matter electronic structure calculations. In this work, we employ multi-objective optimization to maximize pseudopotential softness while maintaining high accuracy and transferability. To accomplish this, we develop a formulation in which softness and accuracy are simultaneously maximized, with accuracy determined by the ability to reproduce all-electron energy differences between Bravais lattice structures, whereupon the resulting Pareto frontier is scanned for the softest pseudopotential that provides the desired accuracy in established transferability tests. We employ an evolutionary algorithm to solve the multi-objective optimization problem and apply it to gene...
Pseudopotential parameter sets for the elements from H to Kr using the relativistic, norm-conserving...
Under a Creative Commons license.-- et al.Pseudopotential-based Density-Functional Theory (DFT) perm...
We propose a systematic method of analyzing pseudopotential transferability based on linear-response...
AbstractWe present an optimization algorithm to construct pseudopotentials and use it to generate a ...
The electronic structure calculations represent a rigorous tool for predicting and understanding the...
Structure prediction and discovery of new materials are essential for the advancement of new technol...
First-principles calculations in crystalline structures are often performed with a planewave basis s...
We present an investigation into the transferability of pseudopotentials (PPs) with a nonlinear core...
The increasing use of high-throughput density-functional theory (DFT) calculations in the computatio...
AbstractPseudopotential-based Density-Functional Theory (DFT) permits the calculation of material pr...
AbstractWe present in this article a pseudopotential (PP) database for DFT calculations in the conte...
Despite the enormous success and popularity of density-functional theory, systematic verification an...
International audienceIn this article, we clarify the mathematical framework underlying the construc...
We show that efficient norm-conserving pseudopotentials for electronic structure calculations can be...
The accuracy of local pseudopotentials (LPSs) is one of two major determinants of the fidelity of or...
Pseudopotential parameter sets for the elements from H to Kr using the relativistic, norm-conserving...
Under a Creative Commons license.-- et al.Pseudopotential-based Density-Functional Theory (DFT) perm...
We propose a systematic method of analyzing pseudopotential transferability based on linear-response...
AbstractWe present an optimization algorithm to construct pseudopotentials and use it to generate a ...
The electronic structure calculations represent a rigorous tool for predicting and understanding the...
Structure prediction and discovery of new materials are essential for the advancement of new technol...
First-principles calculations in crystalline structures are often performed with a planewave basis s...
We present an investigation into the transferability of pseudopotentials (PPs) with a nonlinear core...
The increasing use of high-throughput density-functional theory (DFT) calculations in the computatio...
AbstractPseudopotential-based Density-Functional Theory (DFT) permits the calculation of material pr...
AbstractWe present in this article a pseudopotential (PP) database for DFT calculations in the conte...
Despite the enormous success and popularity of density-functional theory, systematic verification an...
International audienceIn this article, we clarify the mathematical framework underlying the construc...
We show that efficient norm-conserving pseudopotentials for electronic structure calculations can be...
The accuracy of local pseudopotentials (LPSs) is one of two major determinants of the fidelity of or...
Pseudopotential parameter sets for the elements from H to Kr using the relativistic, norm-conserving...
Under a Creative Commons license.-- et al.Pseudopotential-based Density-Functional Theory (DFT) perm...
We propose a systematic method of analyzing pseudopotential transferability based on linear-response...