Add to ORKGThe Green's functions relevant to the periodic Anderson Hamiltonian are calculated via perturbation theory around the atomic limit. The approximation reproduces exact results in three different limits: zero bandwidth, zero hybridization, and zero Coulomb correlation. The density of states, the magnetic susceptibility, and the electronic specific heat are calculated and discussed in both the Kondo and intermediate-valence regimes for different values of hybridization and Coulomb repulsion. The results are in qualitative agreement with experiments and are related to other theoretical calculations
We report the results of a systematic study of the single impurity Anderson model based on a perturb...
The exact Green's functions (GF) of the periodic Anderson model (PAM) for U → ∞ can be formally expr...
Analysis on the perturbation expansion for the single orbital Anderson model is extend-ed to an orbi...
We extend the spin-polarized effective-interaction approximation of the parquet renormalization sche...
We performed a theoretical study of the thermodynamic and magnetic properties of strongly correlated...
We present a perturbation theory for studying thermodynamic properties of the Kondo spin liquid phas...
[[abstract]]The periodic Anderson model contains many parameters: the bare f-electron energy E0, the...
[[abstract]]In the heavy fermion systems the valence fluctuations caused by the hybridization betwe...
We apply the extended (statistically consistent, SCA) Gutzwiller-type approach to the periodic Ander...
We have investigated the temperature dependence of the impurity spin susceptibility for a single-imp...
The exact Green's functions of the periodic Anderson model (PAM) for U-->infinity are formally expre...
On the basis of the Alexander-Anderson model for a pair of magnetic impurities, the correlation func...
We review the formalism for calculating the properties of systems represented by an Anderson lattice...
We study the temperature dependence of the specific heat in the periodic Anderson model as function ...
Tight-binding models capture many of the qualitative features of interaction-induced effects in soli...
We report the results of a systematic study of the single impurity Anderson model based on a perturb...
The exact Green's functions (GF) of the periodic Anderson model (PAM) for U → ∞ can be formally expr...
Analysis on the perturbation expansion for the single orbital Anderson model is extend-ed to an orbi...
We extend the spin-polarized effective-interaction approximation of the parquet renormalization sche...
We performed a theoretical study of the thermodynamic and magnetic properties of strongly correlated...
We present a perturbation theory for studying thermodynamic properties of the Kondo spin liquid phas...
[[abstract]]The periodic Anderson model contains many parameters: the bare f-electron energy E0, the...
[[abstract]]In the heavy fermion systems the valence fluctuations caused by the hybridization betwe...
We apply the extended (statistically consistent, SCA) Gutzwiller-type approach to the periodic Ander...
We have investigated the temperature dependence of the impurity spin susceptibility for a single-imp...
The exact Green's functions of the periodic Anderson model (PAM) for U-->infinity are formally expre...
On the basis of the Alexander-Anderson model for a pair of magnetic impurities, the correlation func...
We review the formalism for calculating the properties of systems represented by an Anderson lattice...
We study the temperature dependence of the specific heat in the periodic Anderson model as function ...
Tight-binding models capture many of the qualitative features of interaction-induced effects in soli...
We report the results of a systematic study of the single impurity Anderson model based on a perturb...
The exact Green's functions (GF) of the periodic Anderson model (PAM) for U → ∞ can be formally expr...
Analysis on the perturbation expansion for the single orbital Anderson model is extend-ed to an orbi...