We investigate magnetic correlations and local magnetic moments at finite temperatures of some Fe and Co multilayers on Cu(100) substrates, such as ComFenCom/Cu(100) and FemConFem/Cu(100). We use an ab initio mean-field theory of magnetic fluctuations for layered materials based on the first-principles local spin-density functional theory implemented through the screened Korringa-Kohn-Rostoker method. We find that the presence of Fe layers in the neighbourhood of a Co layer always leads to a reduction in the magnetic moment of the Co atoms, whereas that of the Fe atoms is enhanced. Of particular interest is the lack of local moment formation on the single fcc-Co layer sandwiched between two fcc-Fe layers. However, a Co layer completely imme...
The interplay between magnetism and structure has been studied in magnetic multilayers by electronic...
International audienceAmong the ferromagnetic binary alloys, body centered cubic (bcc) Fe-Co is the ...
The observation of 14 distinct branches of magnetic quantum well states in Cu films (1-50 atomic lay...
We investigate magnetic correlations and local magnetic moments at finite temperatures of some Fe an...
We describe a mean-field theory of magnetic fluctuations in layered metallic materials at finite tem...
On the basis of an ab initio theory of metallic magnetism in layered materials, we investigate the o...
The magnetic moments in the (FexCo1- x)n/Cu(100) system are calculated and shown for 2 £ n £ 7 and x...
We consider electronic correlation effects and their impact on magnetic properties of tetragonally d...
The magnetism and the electronic structure of ultrathin FCC(100) transition metal films of Fe, Co, a...
We report on the magnetic properties of Fe and Co adatoms on a Cu<sub>2</sub>N/Cu(100)−c(2×2) surfac...
We consider electronic correlation effects and their impact on magnetic properties of tetragonally d...
We present the magnetic properties of bcc Fe films on and embedded in bcc-V(100) substrates in their...
The effects of three crucial structural variations, i.e., sub-monolayer coverage, intermixing, and s...
We report on the magnetic properties of Fe and Co adatoms on a Cu$_2$N/Cu(100)−c(2×2) surface invest...
We present ® rst principles calculations of the Heisenberg exchange parameters (Jij) in thin ® lms o...
The interplay between magnetism and structure has been studied in magnetic multilayers by electronic...
International audienceAmong the ferromagnetic binary alloys, body centered cubic (bcc) Fe-Co is the ...
The observation of 14 distinct branches of magnetic quantum well states in Cu films (1-50 atomic lay...
We investigate magnetic correlations and local magnetic moments at finite temperatures of some Fe an...
We describe a mean-field theory of magnetic fluctuations in layered metallic materials at finite tem...
On the basis of an ab initio theory of metallic magnetism in layered materials, we investigate the o...
The magnetic moments in the (FexCo1- x)n/Cu(100) system are calculated and shown for 2 £ n £ 7 and x...
We consider electronic correlation effects and their impact on magnetic properties of tetragonally d...
The magnetism and the electronic structure of ultrathin FCC(100) transition metal films of Fe, Co, a...
We report on the magnetic properties of Fe and Co adatoms on a Cu<sub>2</sub>N/Cu(100)−c(2×2) surfac...
We consider electronic correlation effects and their impact on magnetic properties of tetragonally d...
We present the magnetic properties of bcc Fe films on and embedded in bcc-V(100) substrates in their...
The effects of three crucial structural variations, i.e., sub-monolayer coverage, intermixing, and s...
We report on the magnetic properties of Fe and Co adatoms on a Cu$_2$N/Cu(100)−c(2×2) surface invest...
We present ® rst principles calculations of the Heisenberg exchange parameters (Jij) in thin ® lms o...
The interplay between magnetism and structure has been studied in magnetic multilayers by electronic...
International audienceAmong the ferromagnetic binary alloys, body centered cubic (bcc) Fe-Co is the ...
The observation of 14 distinct branches of magnetic quantum well states in Cu films (1-50 atomic lay...