Stephan Albert scite author profile

Defined magnetization states in magnetic nanotubes could be the basic building blocks for future memory elements. To date, it has been extremely challenging to measure the magnetic states at the single-nanotube level. We investigate the magnetization states of an individual Ni nanotube by measuring the anisotropic magnetoresistance effect at cryogenic temperature. Depending on the magnitude and direction of the magnetic field, we program the nanotube to be in a vortex-or onion-like state near remanence.

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Reciprocal Damon-Eshbach-type spin wave excitation in a magnonic crystal due to tunable magnetic symmetry

Huber

Krawczyk

Schwarze

et al. 2013

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We report spin-wave (SW) propagation in a one-dimensional magnonic crystal (MC) explored by all electrical spectroscopy. The MC consists of a periodic array of 255 nm wide permalloy nanowires with a small edge-to-edge separation of 45 nm. Provoking antiparallel alignment of the magnetization of neighboring nanowires, we unexpectedly find reciprocal excitation of Damon-Eshbach type SWs. The characteristics are in contrast to ferromagnetic thin films and controlled via, both, the external magnetic field and magnetic states. The observed reciprocal excitation is a metamaterial property for SWs and attributed to the peculiar magnetic symmetry of the artificially tailored magnetic material. The findings offer great perspectives for nanoscale SW interference devices.

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Versatile transporter apparatus for experiments with optically trapped Bose–Einstein condensates

Pertot

Greif²,

Albert

et al. 2009

J. Phys. B: At. Mol. Opt. Phys.

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Abstract. We describe a versatile and simple scheme for producing magnetically and optically-trapped 87 Rb Bose-Einstein condensates, based on a moving-coil transporter apparatus. The apparatus features a TOP trap that incorporates the movable quadrupole coils used for magneto-optical trapping and long-distance magnetic transport of atomic clouds. As a stand-alone device, this trap allows for the stable production of condensates containing up to one million atoms. In combination with an optical dipole trap, the TOP trap acts as a funnel for efficient loading, after which the quadrupole coils can be retracted, thereby maximizing optical access. The robustness of this scheme is illustrated by realizing the superfluid-to-Mott insulator transition in a three-dimensional optical lattice.

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Experimental Evaluation of Vibration Influence on a Resonant MEMS Scanning System for Automotive Lidars

Yoo

Riegler

Brunner

et al. 2022

IEEE Trans. Ind. Electron.

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Evolution von Governance-Strukturen der europäischen Metropolregionen in Deutschland

Albert¹,

Theobald²

2013

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Stephan Albert

Magnetic states of an individual Ni nanotube probed by anisotropic magnetoresistance

Reciprocal Damon-Eshbach-type spin wave excitation in a magnonic crystal due to tunable magnetic symmetry

Versatile transporter apparatus for experiments with optically trapped Bose–Einstein condensates

Experimental Evaluation of Vibration Influence on a Resonant MEMS Scanning System for Automotive Lidars

Evolution von Governance-Strukturen der europäischen Metropolregionen in Deutschland

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