Add to ORKGIn solid-state physics, a crystal lattice is frequently approximated by an array of interacting ions. In this case, the wave functions of individual ions are assumed to be a fairly good zeroth approximation in calculating the matrix elements of the interaction Hamiltonian of electrons and nuclei of the lattice from first principles. Use of the second-quantization method is proposed for such calculations in the basis of these functions. As an example, the electron transition amplitude from a ligand to the central ion is estimated. The results agree well with the experimental data. © 2003 MAIK "Nauka/Interperiodica"
ABSTRACT: Recent developments in density functional theory (DFT) methods applicable to studies of la...
As part of this project and in preparation for future experimental studies of gas-phase ion-molecule...
The crystal lattice is never rigid. Due to temperature, external fields or pressure, the nuclei vibr...
In solid-state physics, a crystal lattice is frequently approximated by an array of interacting ions...
The term “first-principles calculations” is a synonym for the numerical determination of the electro...
The operator, which determines the contribution of processes including the polarization of central i...
The expressions describing the amplitudes of a transition of an electron from a ligand to vacant she...
1. Outline of Theory The dynamical matrix for a crystal containing an inter-stitial can be written i...
The goal of solid state physics and chemistry is to gain deeper understanding of the basic principle...
The ground state properties of fluorite (CaF2) have been studied using CRYSTAL, an ab initio periodi...
Many modeling problems in materials science involve finite temperature simulations with a realistic ...
Perturbation theory is developed for second-quantized operators in a basis of partly nonorthogonal o...
The electronic structures and nuclear quadrupole interactions (NQI) of the (19)F* (I= 5/2) state of ...
International audienceWe performed first principles calculations using the projector augmented wave ...
El presente trabajo de grado establece el estudio teórico de las propiedades electrónicasy estructur...
ABSTRACT: Recent developments in density functional theory (DFT) methods applicable to studies of la...
As part of this project and in preparation for future experimental studies of gas-phase ion-molecule...
The crystal lattice is never rigid. Due to temperature, external fields or pressure, the nuclei vibr...
In solid-state physics, a crystal lattice is frequently approximated by an array of interacting ions...
The term “first-principles calculations” is a synonym for the numerical determination of the electro...
The operator, which determines the contribution of processes including the polarization of central i...
The expressions describing the amplitudes of a transition of an electron from a ligand to vacant she...
1. Outline of Theory The dynamical matrix for a crystal containing an inter-stitial can be written i...
The goal of solid state physics and chemistry is to gain deeper understanding of the basic principle...
The ground state properties of fluorite (CaF2) have been studied using CRYSTAL, an ab initio periodi...
Many modeling problems in materials science involve finite temperature simulations with a realistic ...
Perturbation theory is developed for second-quantized operators in a basis of partly nonorthogonal o...
The electronic structures and nuclear quadrupole interactions (NQI) of the (19)F* (I= 5/2) state of ...
International audienceWe performed first principles calculations using the projector augmented wave ...
El presente trabajo de grado establece el estudio teórico de las propiedades electrónicasy estructur...
ABSTRACT: Recent developments in density functional theory (DFT) methods applicable to studies of la...
As part of this project and in preparation for future experimental studies of gas-phase ion-molecule...
The crystal lattice is never rigid. Due to temperature, external fields or pressure, the nuclei vibr...