Your search keyword '"Kentzinger E"' showing total 2 results

1. Structural and magnetic properties of $\lbrack$ Er|Tb $\rbrack$ multilayers.

Author

Voigt, J., Kentzinger, E., Rücker, U., Schweika, W., Wermeille, D., Schmidt, W., and Brückel, Th.

Subjects

*MAGNETIC properties, *X-ray scattering, *ERBIUM, *SUPERLATTICES, *MAGNETIC structure, *TRANSITION temperature, *ATOMS

Abstract

We have investigated the structural and magnetic properties of $\lbrack$ Er|Tb $\rbrack$ multilayers by different scattering methods. Diffuse X-ray scattering under grazing incidence reveals the interface structure in $\lbrack$ Er|Tb $\rbrack$ bilayers and trilayers, indicating vertically correlated roughness between the Er and Tb interfaces. The magnetic properties of $\lbrack$ ErnEr|TbnTb $\rbrack$ superlattices have been studied as a function of the superlattice composition (indices denote the number of atomic layers). Coupled ferromagnetic structures exist in all investigated samples. The phase transition temperature varies with the Tb layer thickness. Modulated magnetic order is short range for all samples beside the $\lbrack$ Er20|Tb5 $\rbrack$ superlattice, the sample with the smallest Tb layer thickness. We observe dipolar antiferromagnetic coupling between single ferromagnetic Tb layers in all samples, with the onset of this ordering depending on the Tb layer thickness. Due to competing interactions, exchange coupling is limited to the interface near region. Therefore long range modulated magnetic order is observed in the $\lbrack$ Er20|Tb5 $\rbrack$ superlattice only, where the interface regions overlap. The distinct differences to the magnetic structure of an Er0.8Tb0.2 alloy film are explained by a highly anisotropic arrangement of neighbouring atoms due to the correlated roughness. [ABSTRACT FROM AUTHOR]

Published

2006

2. Interlayer coupling in [Er|Tb] superlattices.

Author

Voigt, J., Kentzinger, E., Rücker, U., Schmidt, W., Ohl, M., Hupfeld, D., and Brückel, T.

Subjects

*SUPERLATTICES, *ERBIUM, *TERBIUM

Abstract

We report on interlayer coupling in [Er[sub n](Er)Tb[sub n](Tb)] superlattices. By means of neutron diffraction, helix-like and conical magnetic structures are observed in an [Er[sub 20]Tb[sub 5]] sample. These structures are correlated across terbium layers at low temperatures, where bulk terbium is ferromagnetic. Moreover, resonant X-ray magnetic scattering gives clear evidence that the 5d conduction band of terbium is polarized according to the erbium magnetic structure. [ABSTRACT FROM AUTHOR]

Published

2002