The energetics of various surface alloys of manganese on copper (111) are calculated and their stability against clustering and/or interdiffusion is determined by an ab initio method. The interplay between stoichiometry, chemical, and magnetic ordering allows for a large variety of ordered alloys; only two are found to be stable against clustering: a 33% alloy and a 50% alloy of antiferromagnetically ordered Mn chains. Thermodynamic considerations indicate that only the 33% alloy will be formed at temperatures typical for epitaxial growth. The results;are compared to recent scanning tunneling microscopy experiments
X-ray photoelectron diffraction (PED) experiment on the metallic Mn:Ge(111) surface alloy has been c...
The authors investigated the alloys in Cu-Mn system containing manganese up to 61.3% from various st...
The structural, electronic, and magnetic properties of the MnO(100) and (110) surfaces were studied ...
We have deposited Mn on the (110) surface of Ni and discover ordering into a c(2 × 2) superstructure...
We report a systematic investigation of the electronic properties and correlation effects in a two-d...
Using first-principles calculations, we study the occurrence of noncollinear magnetic order in monat...
The surface sensitive techniques of LEED, Auger electron spectroscopy (AES), ultra-violet photoelect...
Recent density functional theory calculations of changes in surface stress associated with the forma...
The interaction of Mn with the Cu(1 1 1) surface has been investigated using the normal incidence X-...
International audienceIn order to figure out the effect of excess Mn atoms on the preference of the ...
We investigated by theoretical means the magnetic structure and the magnetocrystalline anisotropy of...
The substitutional surface alloy phases Cu(100)c(2 x 2)-Mn and Cu(100)c(2 x 2)Au have been investiga...
Ultrathin films of Cobalt, Iron and Manganese have been thermally evaporated onto an fcc Copper (111...
c(2 X 2)MnCu/Cu(100) is an ordered two-dimensional surface alloy that exhibits a checkerboard arrang...
Surface alloying of Cu(001) by Sn deposition is a finely controllable method of tuning the degree of...
X-ray photoelectron diffraction (PED) experiment on the metallic Mn:Ge(111) surface alloy has been c...
The authors investigated the alloys in Cu-Mn system containing manganese up to 61.3% from various st...
The structural, electronic, and magnetic properties of the MnO(100) and (110) surfaces were studied ...
We have deposited Mn on the (110) surface of Ni and discover ordering into a c(2 × 2) superstructure...
We report a systematic investigation of the electronic properties and correlation effects in a two-d...
Using first-principles calculations, we study the occurrence of noncollinear magnetic order in monat...
The surface sensitive techniques of LEED, Auger electron spectroscopy (AES), ultra-violet photoelect...
Recent density functional theory calculations of changes in surface stress associated with the forma...
The interaction of Mn with the Cu(1 1 1) surface has been investigated using the normal incidence X-...
International audienceIn order to figure out the effect of excess Mn atoms on the preference of the ...
We investigated by theoretical means the magnetic structure and the magnetocrystalline anisotropy of...
The substitutional surface alloy phases Cu(100)c(2 x 2)-Mn and Cu(100)c(2 x 2)Au have been investiga...
Ultrathin films of Cobalt, Iron and Manganese have been thermally evaporated onto an fcc Copper (111...
c(2 X 2)MnCu/Cu(100) is an ordered two-dimensional surface alloy that exhibits a checkerboard arrang...
Surface alloying of Cu(001) by Sn deposition is a finely controllable method of tuning the degree of...
X-ray photoelectron diffraction (PED) experiment on the metallic Mn:Ge(111) surface alloy has been c...
The authors investigated the alloys in Cu-Mn system containing manganese up to 61.3% from various st...
The structural, electronic, and magnetic properties of the MnO(100) and (110) surfaces were studied ...