M. Kisielewski scite author profile

Complementary multiscale magneto-optical studies based on the polar Kerr effect are carried out on an ultrathin cobalt wedge covered with a silver wedge and subsequently with the Au thick layer. A few monolayers of Ag are found to have a substantial effect on magnetic anisotropy, the coercivity field, and Kerr rotation. The silver overlayer thickness-driven magnetic reorientation from easy axis to easy plane generates a new type of 90 degrees magnetic wall for cobalt thicknesses between 1.3 and 1.8 nm. The tuning of the wall width in a wide range is possible. Tailoring of the overlayer structure can be used for ultrathin film magnetic patterning.

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Magnetic anisotropy and magnetization reversal processes in Pt/Co/Pt films

Kisielewski

Maziewski

Tekielak

et al. 2003

Journal of Magnetism and Magnetic Materials

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Wide-scale evolution of magnetization distribution in ultrathin films

et al. 2004

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We show, combining simulations and analytical study, the evolution of magnetization distributions in ultrathin film with in-plane fields (H ʈ ) and changes of magnetic anisotropy characterized by the quality factor, Q. Reconstruction of the distributions and their new types near Q or H ʈ -induced reorientation phase transitions, from a domain structure ͑DS͒ with perpendicular magnetization into a state with in-plane magnetization, are reported. Sinusoidal-like DS exist for H ʈ larger than the anisotropy field and for QϽ1. A minimal 8l ex DS period is predicted (l ex is the exchange length͒.

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M. Kisielewski

Magnetization-reversal processes in an ultrathin Co/Au film

New Possibilities for Tuning Ultrathin Cobalt Film Magnetic Properties by a Noble Metal Overlayer

Magnetic anisotropy and magnetization reversal processes in Pt/Co/Pt films

Wide-scale evolution of magnetization distribution in ultrathin films

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