S. Hajjar scite author profile

Ferromagnetic films evaporated at oblique incidence show invariably an uniaxial in-plane magnetic anisotropy component with easy axis perpendicular to the incidence plane. Scanning Tunneling Microscopy (STM) images reveal that oblique deposition results in rough films with highly anisotropic correlation functions of the surface profile. We show that simple shape anisotropy calculations using high-quality STM roughness data as input reproduce the measured anisotropies remarkably well and unambiguously relate them to the long-ranged dipolar interactions.

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p(1×1)toc(4×8)periodicity change in ultrathin iron silicide on
Hajjar
¹
,
Garreau
²
,
Pelletier
³

et al. 2003
Phys. Rev. B

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Morphology and composition of Au catalysts on Ge(111) obtained by thermal dewetting

et al. 2011

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International audienceWe investigate the chemical and morphological structure of the Au nanodots on Ge(111) which serve as catalysts for the formation of epitaxial Ge nanowires. The spatial localization of Au is investigated by X-ray spectromicroscopy and transmission electron microscopy. We show that dewetting of an Au film on Ge(111) gives rise to a thin Au-Ge wetting layer and Au-Ge dots. These dots are crystallized but not with a single crystallographic orientation. Thanks to the spatially resolved X-ray and transmission electron microscopy measurements, a chemical characterization of both binary Au-Ge catalysts and wetting layer is obtained at the nanoscale. We show that Ge vertical growth is achieved even without external Ge supply

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S. Hajjar

Growth and magnetic anisotropy of Fe films deposited on Si(111) using an ultrathin iron silicide template

Origin of the magnetic anisotropy in ferromagnetic layers deposited at oblique incidence

p(1×1)toc(4×8)periodicity change in ultrathin iron silicide on
Hajjar
¹
,
Garreau
²
,
Pelletier
³

et al. 2003
Phys. Rev. B

Morphology and composition of Au catalysts on Ge(111) obtained by thermal dewetting

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S. Hajjar

Growth and magnetic anisotropy of Fe films deposited on Si(111) using an ultrathin iron silicide template

Origin of the magnetic anisotropy in ferromagnetic layers deposited at oblique incidence

p(1×1)toc(4×8)periodicity change in ultrathin iron silicide onHajjar1, Garreau2, Pelletier3 et al. 2003Phys. Rev. B

Morphology and composition of Au catalysts on Ge(111) obtained by thermal dewetting

Contact Info

Product

Resources

About

p(1×1)toc(4×8)periodicity change in ultrathin iron silicide on
Hajjar
¹
,
Garreau
²
,
Pelletier
³

et al. 2003
Phys. Rev. B