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MA: Fachverband Magnetismus
MA 9: Magnetic Nanoparticles
MA 9.5: Vortrag
Montag, 31. März 2014, 16:00–16:15, HSZ 401
Magnetic Anisotropy and relaxation of 24 single 43 nm Fe/FexOy core/shell-nanocubes — •Alexandra Terwey1, Sabrina Masur1, Ralf Meckenstock1, Christian Derricks1, Benjamin Zingsem1, Florian Römer1, Miguel Comensana-Hermo2, and Michael Farle1 — 1AG Farle, Experimentalphysik, Universität Duisburg Essen, Germany — 2Centre de Recherche Paul Pascal, CNRS, Universite de Bordeaux, France
Due to their large surface contribution nano particles and small agglomerates hold unique magnetic properties distinguishing them from bulk or thin film material. Here, ferromagnetic resonance measurements of single 43nm edge length Fe/FexOy core/shell nanocubes are shown with full angle dependence. These measurements performed simultaneously on 22 of these nanocubes and on two dimers prove that the cubes show the same crystalline anisotropy field K4/M=25mT which is surprisingly in the same range as that of bulk iron (28mT). SQUID measurements show a magnetization of M=2±0.5·105A/m which is roughly 10% of the value of bulk iron. Considering a ferrimagnetic FexOy shell, d=7nm, the magnetization should be reduced to about 40%. This behaviour can be explained by an additional contribution such as shell anisotropy or a decrease of the magnetic moment at the internal interface. Furthermore, we find a small FMR linewidth of 4mT which corresponds to a damping of α=0.045 matching the linewidth of high quality epitaxial Fe films.