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Andrzej Maziewski
Researcher at University of Białystok
Publications - 241
Citations - 2490
Andrzej Maziewski is an academic researcher from University of Białystok. The author has contributed to research in topics: Magnetization & Magnetic anisotropy. The author has an hindex of 24, co-authored 236 publications receiving 2219 citations. Previous affiliations of Andrzej Maziewski include University of Warsaw & University of Paris-Sud.
Papers
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Journal Article
Magnetic properties of (Co/Au) N multilayers with various numbers of repetition N *
P. Mazalski,Iosif Sveklo,Maria Tekielak,Aleksey Kolendo,Andrzej Maziewski,Piotr Kuświk,B. Szymański,Feliks Stobiecki +7 more
TL;DR: In this article, the magnetic domain structures of multilayered systems consisting of magnetostatically coupled cobalt layers separated by nonmagnetic/soft-magnetic ones are studied.
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Magnetization Reversal of Disorder-Induced Ferromagnetic Regions in Fe 60 Al 40 Thin Films
N. Tahir,R. Gieniusz,Andrzej Maziewski,Rantej Bali,Mikhail Kostylev,Sebastian Wintz,Helmut Schultheiss,Stefan Facsko,Kay Potzger,Jürgen Lindner,Jürgen Fassbender +10 more
TL;DR: In this article, the magnetization processes were investigated by employing magnetometry and magnetic domain imaging using magnetooptical longitudinal and polar effects in Fe.............. 60..............Al.............. 40.............. films of 40 nm thickness.
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Photoinduced magnetization switchings in cobalt-doped YIG films
TL;DR: In this paper, photo-induced remagnetization was found in YIG:Co films grown by LPE on the (001) plane of a GGG substrate, and the results obtained are discussed in the frame of the developed theory, taking into consideration photoinduced changes in the magnetic anisotropy.
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Magnetooptical micromagnetometry of ultrathin Co wedge in Au/Co/Au structures
M. Kisielewski,Zbigniew Kurant,Maria Tekielak,W. Dobrogowski,Andrzej Maziewski,Andrzej Wawro,Lech T. Baczewski +6 more
TL;DR: In this article, the polar Kerr effect was applied to the ultrathin cobalt wedges in order to determine the coercivity field H c as a function of Co film thickness d from the hysteresis loops.
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Modelling of dynamics of vortex reversal in nanodisc of cobalt
TL;DR: In this article, the dynamic of vortex core polarization reversal under the influence of an in-plane oriented magnetic field pulse has been examined for a 3-nm thick cobalt disc, and the results are summarized in a diagram showing the range of both pulse strength and pulse width, which should be used in the aim to force a controlled toggle switch of the core of vortex in discs of diameter varying from 90-nm to 180-nm.