A first order perturbation method is used for treating localized defects in metals in a self-consistent way. The calculations are performed under the Hartree approximation using both the ordinary Coulomb interactions between electrons appropriate for the one electron approximation and the effective short-range potential resulting from the Bohm-Pines plasma theory of metals. The results of the above approximations are tested for self-consistency by the application of the Friedel sum rule. The results are then compared with the statistical approximation of the Thomas-Fermi method. It is found that they are very similar.Physics, Department o
We investigate a general, approximate method for solving the many-electron Schrödinger equation for ...
Energy of electronic subsystem of semi-infinite metal is presented in the form of an expansion in po...
A perturbational method for improving calculated energy levels of atomic elements (Z ≤ 30) at differ...
With a transcorrelated Hamiltonian, we perform a many body perturbation (MBPT) calculation on the un...
A perturbation theory is developed for treating a system of n electrons in which the Hartree-Fock so...
A new self-consistent quasistatic screening approach is proposed for studying the properties of an i...
The performance of many-body perturbation theory for calculating ground-state properties is investig...
Corrections to the wave functions of atomic electrons in hydrogen-like atom are calculated by using ...
[[abstract]]The accurate analytical and numerical calculations of the electronic band structure and ...
We model mutually interacting electrons in a one-dimensional quantum well by using the lowest mean-f...
International audienceStudying the electronic structure of defects in materials is an important subj...
International audienceStudying the electronic structure of defects in materials is an important subj...
To take into account static correlation effects in the quasi-two-dimensional electron gas a screened...
A perturbative scaling theory for calculating static thermodynamic properties of arbitrary local imp...
A perturbative scaling theory for calculating static thermodynamic properties of arbitrary local imp...
We investigate a general, approximate method for solving the many-electron Schrödinger equation for ...
Energy of electronic subsystem of semi-infinite metal is presented in the form of an expansion in po...
A perturbational method for improving calculated energy levels of atomic elements (Z ≤ 30) at differ...
With a transcorrelated Hamiltonian, we perform a many body perturbation (MBPT) calculation on the un...
A perturbation theory is developed for treating a system of n electrons in which the Hartree-Fock so...
A new self-consistent quasistatic screening approach is proposed for studying the properties of an i...
The performance of many-body perturbation theory for calculating ground-state properties is investig...
Corrections to the wave functions of atomic electrons in hydrogen-like atom are calculated by using ...
[[abstract]]The accurate analytical and numerical calculations of the electronic band structure and ...
We model mutually interacting electrons in a one-dimensional quantum well by using the lowest mean-f...
International audienceStudying the electronic structure of defects in materials is an important subj...
International audienceStudying the electronic structure of defects in materials is an important subj...
To take into account static correlation effects in the quasi-two-dimensional electron gas a screened...
A perturbative scaling theory for calculating static thermodynamic properties of arbitrary local imp...
A perturbative scaling theory for calculating static thermodynamic properties of arbitrary local imp...
We investigate a general, approximate method for solving the many-electron Schrödinger equation for ...
Energy of electronic subsystem of semi-infinite metal is presented in the form of an expansion in po...
A perturbational method for improving calculated energy levels of atomic elements (Z ≤ 30) at differ...
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