Correlation consistent effective core potentials for late 3<i>d</i> transition metals adapted for plane wave calculations
Benjamin Kincaid, Guangming Wang, Haihan Zhou, Luboš Mitáš
Abstract
We construct a new modification of correlation consistent effective core potentials (ccECPs) for late 3d elements Cr-Zn with Ne-core that are adapted for efficiency and low energy cut-offs in plane wave calculations. The decrease in accuracy is rather minor, so that the constructions are in the same overall accuracy class as the original ccECPs. The resulting new constructions work with energy cut-offs at or below ≈400 Ry and, thus, make calculations of large systems with transition metals feasible for plane wave codes. We also provide the basic benchmarks for atomic spectra and molecular tests of this modified option that we denote as ccECP-soft.
Topics & Concepts
Plane waveCore (optical fiber)Plane (geometry)Construct (python library)Energy (signal processing)Work (physics)Class (philosophy)Transition metalPhysicsAtomic physicsComputational physicsMathematicsChemistryComputer scienceGeometryQuantum mechanicsOpticsArtificial intelligenceBiochemistryCatalysisProgramming languageAdvanced Chemical Physics StudiesX-ray Diffraction in CrystallographyHigh-pressure geophysics and materials