Add to ORKGThis paper presents a review of the work performed by the authors toincorporate the inner structure of a d-shell magnetic atom in the description of the many-body interaction between a transition metal atom impurity and a metal host.Two main assumptions are made in this approach: (i) the magnetic atom has anorbital singlet with a total electronic spin S (as corresponds to a case for whichthe angular moment is quenched); (ii) the first Hunds rule determines the innerelectronic structure of the magnetic atom. Using these two assumptions and therotational symmetry of the electronic spin, an ionic Hamiltonian is introduced and, in a further step, the effective exchange metal atom coupling and the impurity Kondo temperature are analyzed.Fil: Flo...
Spin density functional theory and the KKR-Green's function method are used to calculate selfconsist...
The interaction between impurities of two solute elements in metal hosts leads to a non-random distr...
The electron spin is a consequence of relativistic quantum mechanics and determines the symmetry of ...
An ionic Hamiltonian for describing the interaction between a metal and a d-shell transition metal a...
The present knowledge about the electronic structure of the transition metals is briefly discussed. ...
International audienceIn this report we review the method of explicit calculations of interatomic ex...
Kondo resonances for transition-metal-atom impurities in a metal host have been analyzed by means of...
Impurity magnetism in metals can be investigated essentially under two aspects: One can explore the ...
A possible mechanism for the resistance minimum in dilute alloys in which the localized impurity sta...
A method to calculate the effective spin Hamiltonian for a transition metal impurity in a non-magnet...
The theoretical studies of several magnetic materials are presented in this thesis. To each of them,...
Journal ArticleIt is proved that the spin of the ground state of a magnetic atom having exchange int...
This paper is divided into four parts. I. Experimental aspects. — II. Spin hamiltonian and magnetic ...
An ionic Hamiltonian based on the first Hund rule applied to transition metal atoms is reviewed and ...
In this thesis, the magnetic properties of several materials were investigated using first principle...
Spin density functional theory and the KKR-Green's function method are used to calculate selfconsist...
The interaction between impurities of two solute elements in metal hosts leads to a non-random distr...
The electron spin is a consequence of relativistic quantum mechanics and determines the symmetry of ...
An ionic Hamiltonian for describing the interaction between a metal and a d-shell transition metal a...
The present knowledge about the electronic structure of the transition metals is briefly discussed. ...
International audienceIn this report we review the method of explicit calculations of interatomic ex...
Kondo resonances for transition-metal-atom impurities in a metal host have been analyzed by means of...
Impurity magnetism in metals can be investigated essentially under two aspects: One can explore the ...
A possible mechanism for the resistance minimum in dilute alloys in which the localized impurity sta...
A method to calculate the effective spin Hamiltonian for a transition metal impurity in a non-magnet...
The theoretical studies of several magnetic materials are presented in this thesis. To each of them,...
Journal ArticleIt is proved that the spin of the ground state of a magnetic atom having exchange int...
This paper is divided into four parts. I. Experimental aspects. — II. Spin hamiltonian and magnetic ...
An ionic Hamiltonian based on the first Hund rule applied to transition metal atoms is reviewed and ...
In this thesis, the magnetic properties of several materials were investigated using first principle...
Spin density functional theory and the KKR-Green's function method are used to calculate selfconsist...
The interaction between impurities of two solute elements in metal hosts leads to a non-random distr...
The electron spin is a consequence of relativistic quantum mechanics and determines the symmetry of ...