The interplay between atomic geometry and magnetic properties of Fe atoms at the Fe-Ni(1 1 1) interface was studied. To this end dichroic optical absorption and reflectivity (both in energy and ?-2? angular scan mode) were carried out in the L2,3 edge region of Fe in (Fe6 Å/Ni24 Å(1 1 1))10 multilayer while the atomic geometry of the Fe site at the interface was studied for 1 atomic layer of Fe on Ni(1 1 1) by photo-electron diffraction (in angular scan mode and back-scattering regime). The Fe atom was found to be chemisorbed in an fcc hollow site and to stack pseudomorphically to Ni(1 1 1). Its magnetic moment was found to be in the range 2.9±0.9-1.93±0.6 ?B. Possibility of surface anisotropy is discussed.[object Object]
Interface magnetometry in a (Fe6Å/Ni24Å)10 multilayer
Capelli R;Gazzadi GC;Pasquali L;Verucchi R;
2001
Abstract
The interplay between atomic geometry and magnetic properties of Fe atoms at the Fe-Ni(1 1 1) interface was studied. To this end dichroic optical absorption and reflectivity (both in energy and ?-2? angular scan mode) were carried out in the L2,3 edge region of Fe in (Fe6 Å/Ni24 Å(1 1 1))10 multilayer while the atomic geometry of the Fe site at the interface was studied for 1 atomic layer of Fe on Ni(1 1 1) by photo-electron diffraction (in angular scan mode and back-scattering regime). The Fe atom was found to be chemisorbed in an fcc hollow site and to stack pseudomorphically to Ni(1 1 1). Its magnetic moment was found to be in the range 2.9±0.9-1.93±0.6 ?B. Possibility of surface anisotropy is discussed.[object Object]I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.