International audienceThe anisotropy of the Fe orbital moment is investigated in epitaxial ultrathin (<2 nm) FePt layers by angular dependent x-ray magnetic circular dichroism (XMCD) for two distinct epitaxial systems, CoO/FePt/Pt(001) and Pt/FePt/MnPt/Pt(001). Element selective hysteresis loops obtained from the XMCD signal at the Fe L 3 edge are used to quantify the anisotropy constants, which are consistent with the corresponding chemical order parameter. A careful procedure for XMCD sum rules data analysis is set up to avoid experimental overestimation of the orbital moment. The measured orbital moment of Fe is found comparable to theoretical values and shows a significant anisotropy. This orbital moment anisotropy is discussed in the l...
We determined the magnetic ground-state moments of ultrathin epitaxial Fe films on Ni(110) and found...
Chcete-li získat spolehlivou počáteční hodnotu pro magnetokrystalickou anizotropie (MCA) energie FeP...
We determined the magnetic ground-state moments of ultrathin epitaxial Fe films on Ni(110) and found...
The relation between orbital moment and magnetic anisotropy is investigated by model calculations, w...
金沢大学理工研究域 数物科学系We investigated the magnetic anisotropy of an iron layer on a Pt(001) surface and som...
The order parameters and anisotropy constants of a series of epitaxial L1(0) FePt films with composi...
The order parameters and anisotropy constants of a series of epitaxial L1(0) FePt films with composi...
The relation between orbital moment and magnetic anisotropy is investigated by model calculations, w...
The magnetocrystalline anisotropy (MCA) of bulk and thick films of FePt is calculated from a 'first-...
AbstractWe investigated the origin of strong magnetic anisotropy energy (MAE) in L10-type ordered Fe...
We report on a combined experimental and theoretical investigation of the magnetic anisotropy of Fe ...
We determined the magnetic ground-state moments of ultrathin epitaxial Fe films on Ni(110) and found...
We determined the magnetic ground-state moments of ultrathin epitaxial Fe films on Ni(110) and found...
A second-order perturbation (2PT) approach to the spin-orbit interaction (SOI) is implemented within...
We determined the magnetic ground-state moments of ultrathin epitaxial Fe films on Ni(110) and found...
We determined the magnetic ground-state moments of ultrathin epitaxial Fe films on Ni(110) and found...
Chcete-li získat spolehlivou počáteční hodnotu pro magnetokrystalickou anizotropie (MCA) energie FeP...
We determined the magnetic ground-state moments of ultrathin epitaxial Fe films on Ni(110) and found...
The relation between orbital moment and magnetic anisotropy is investigated by model calculations, w...
金沢大学理工研究域 数物科学系We investigated the magnetic anisotropy of an iron layer on a Pt(001) surface and som...
The order parameters and anisotropy constants of a series of epitaxial L1(0) FePt films with composi...
The order parameters and anisotropy constants of a series of epitaxial L1(0) FePt films with composi...
The relation between orbital moment and magnetic anisotropy is investigated by model calculations, w...
The magnetocrystalline anisotropy (MCA) of bulk and thick films of FePt is calculated from a 'first-...
AbstractWe investigated the origin of strong magnetic anisotropy energy (MAE) in L10-type ordered Fe...
We report on a combined experimental and theoretical investigation of the magnetic anisotropy of Fe ...
We determined the magnetic ground-state moments of ultrathin epitaxial Fe films on Ni(110) and found...
We determined the magnetic ground-state moments of ultrathin epitaxial Fe films on Ni(110) and found...
A second-order perturbation (2PT) approach to the spin-orbit interaction (SOI) is implemented within...
We determined the magnetic ground-state moments of ultrathin epitaxial Fe films on Ni(110) and found...
We determined the magnetic ground-state moments of ultrathin epitaxial Fe films on Ni(110) and found...
Chcete-li získat spolehlivou počáteční hodnotu pro magnetokrystalickou anizotropie (MCA) energie FeP...
We determined the magnetic ground-state moments of ultrathin epitaxial Fe films on Ni(110) and found...