Reversal Mechanism of an Individual Ni Nanotube Simultaneously Studied by Torque and SQUID Magnetometry.

Authors :: Buchter, A.
Nagel, J.
Rüffer, D.
Xue, F.
Weber, D. P.
Kieler, O. F.
Weimann, T.
Kohlmann, J.
Zorin, A. B.
Russo-Averchi, E.
Huber, R.
Berberich, P.
Fontcuberta i Morral, A.
Kemmler, M.
Kleiner, R.
Koelle, D.
Grundler, D.
Poggio, M.
Source :: Physical Review Letters. 8/9/2013, Vol. 111 Issue 6, p067202-1-067202-5. 5p.
Publication Year :: 2013
Abstract: Using an optimally coupled nanometer-scale SQUID, 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 vortexlike states are formed in different segments of the individual nanotube. Such stray-field free states are interesting for memory applications and noninvasive sensing. [ABSTRACT FROM AUTHOR]

Subjects :: *NICKEL
*NANOTUBES
*MAGNETOMETERS
*MAGNETIC flux measurement
*FERROMAGNETIC materials

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