Add to ORKGThe behavior of Mn overlayers on Fe(001) under the influence of external magnetic fields is investigated. The electronic charge distribution, local magnetic moments as well as their couplings are determined as a function of the external field by solving self-consistently a tight binding Hamiltonian, parameterized to ab-initio TBLMTO calculations. Our method allows to trace back the field-dependent average magnetization of the system to its electronic structure and magnetic configuration. We show how in the noncollinear framework the response of the system is markedly different to what is found in the collinear framework. If metastable magnetic configurations exist, the external field can be used for tuning the system between some of them be...
This thesis focus on the magnetic behavior, from single atoms to bulk materials. The materials consi...
We present a first-principles approach for the computation of the magnetic Gibbs free energy of mate...
This thesis presents a general formalism for a Density Functional Theory description of the magneti...
The magnetic properties of Mn nanostructures on the Fe(001) surface have been studied using the nonc...
Noncollinear (NC) magnetism is common in nature, especially when there exist geometrical frustration...
International audienceMagnetic behavior of a 3d solute in a ferromagnetic lattice can be very sensit...
The electronic and magnetic structures of Mn films with thicknesses of up to 12 monolayers on Fe(001...
We present a theoretical framework for describing atomic short-range order and its effect upon such ...
We investigated by theoretical means the magnetic structure and the magnetocrystalline anisotropy of...
We have used the symmetrized fall-potential linearized augmented plane wave method for sIab geometry...
The occurrence of a noncollinear magnetic structure at a Mn monolayer grown epitaxially on Fe(100) i...
Controlling and designing quantum magnetic properties by an external electric field is a key challen...
We explore possibilities for control of magnons in two-dimensional heterostructures by an external e...
The structural, electronic, and magnetic properties of the MnO(100) and (110) surfaces were studied ...
Using first-principles calculations, we study the occurrence of noncollinear magnetic order in monat...
This thesis focus on the magnetic behavior, from single atoms to bulk materials. The materials consi...
We present a first-principles approach for the computation of the magnetic Gibbs free energy of mate...
This thesis presents a general formalism for a Density Functional Theory description of the magneti...
The magnetic properties of Mn nanostructures on the Fe(001) surface have been studied using the nonc...
Noncollinear (NC) magnetism is common in nature, especially when there exist geometrical frustration...
International audienceMagnetic behavior of a 3d solute in a ferromagnetic lattice can be very sensit...
The electronic and magnetic structures of Mn films with thicknesses of up to 12 monolayers on Fe(001...
We present a theoretical framework for describing atomic short-range order and its effect upon such ...
We investigated by theoretical means the magnetic structure and the magnetocrystalline anisotropy of...
We have used the symmetrized fall-potential linearized augmented plane wave method for sIab geometry...
The occurrence of a noncollinear magnetic structure at a Mn monolayer grown epitaxially on Fe(100) i...
Controlling and designing quantum magnetic properties by an external electric field is a key challen...
We explore possibilities for control of magnons in two-dimensional heterostructures by an external e...
The structural, electronic, and magnetic properties of the MnO(100) and (110) surfaces were studied ...
Using first-principles calculations, we study the occurrence of noncollinear magnetic order in monat...
This thesis focus on the magnetic behavior, from single atoms to bulk materials. The materials consi...
We present a first-principles approach for the computation of the magnetic Gibbs free energy of mate...
This thesis presents a general formalism for a Density Functional Theory description of the magneti...