Reversal mechanism of an individual Ni nanotube simultaneously studied by torque and SQUID magnetometry

A. Buchter; A. B. Zorin; A. Fontcuberta i Morral; D. Grundler; D. Koelle; D. P. Weber; D. R\"uffer; E. Russo-Averchi; F. Xue; J. Kohlmann

arxiv: 1305.6481 · v2 · pith:ZQG4OMDLnew · submitted 2013-05-28 · ❄️ cond-mat.mes-hall

Reversal mechanism of an individual Ni nanotube simultaneously studied by torque and SQUID magnetometry

A. Buchter , J. Nagel , D. R\"uffer , F. Xue , D. P. Weber , O. F. Kieler , T. Weimann , J. Kohlmann

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A. B. Zorin E. Russo-Averchi R. Huber P. Berberich A. Fontcuberta i Morral M. Kemmler R. Kleiner D. Koelle D. Grundler M. Poggio

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keywords nanotubeindividualmagnetometryreversalstatestorqueapplicationsattached

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Using an optimally coupled nanometer-scale superconducting quantum interference device, we measure the magnetic flux originating from an individual ferromagnetic Ni nanotube attached to a Si cantilever. At the same time, we detect the nanotube's volume magnetization using torque magnetometry. We observe both the predicted reversible and irreversible reversal processes. A detailed comparison with micromagnetic simulations suggests that vortex-like states are formed in different segments of the individual nanotube. Such stray-field free states are interesting for memory applications and non-invasive sensing.

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Reversal mechanism of an individual Ni nanotube simultaneously studied by torque and SQUID magnetometry

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