Lafkioti, M., E. Goering, S. Gold, G. Schütz, S. N. Barilo, S. V. Shiryaev, G. L. Bychkov, P. Lemmens, V. Hinkov, J. Deisenhofer and A. Loidl: Spin state and orbita moments across the metal-insulator-transition of REBaCo2O5.5 investigated by XMCD. In: New Journal of Physics 10, Seq. No.: 123030 (2008).
doi: 10.1088/1367-2630/10/12/123030
Goering, E., M. Lafkioti, S. Gold and G. Schütz: Absorption spectroscopy and XMCD at the Verwey transition of Fe3O4. In: Journal of Magnetism and Magnetic Materials 310, 249-251 (2007).
Gold, S.: Winkel- und Temperaturabhängigkeit der magnetokristallinen Anisotropieenergie und der mikroskopischen magnetischen Momente des ferromagnetischen Halbmetalls CrO2. Doktorarbeit, Universität Würzburg, Würzburg (2006).
Goering, E., S. Gold, M. Lafkioti and G. Schütz: Vanishing Fe 3d orbital moments in single-crystalline magnetite. In: Europhysics Letters 73, 1, 97-103 (2006).
Goering, E., M. Lafkioti and S. Gold: Comment on "Spin and orbital magnetic moments of Fe3O4. In: Physical Review Letters 96, 3, Seq. No.: 039701 (2006).
Goering, E., S. Gold, M. Lafkioti, G. Schütz and V. A. M. Brabers: Oxygen K-edge shift at the Verwey transition of magnetite. In: Physical Review B 72, Seq. No.: 033112 (2005).
Gold, S., E. Goering, C. König, U. Rüdiger, G. Güntherodt and G. Schütz: Temperature dependence of the magnetocrystalline anisotropy energy and projected microscopic magnetic moments in epitaxial CrO2 films. In: Physical Review B 71, 22, Seq. No.: 220404 (2005).
Fauth, K., S. Gold, M. Heßler and G. Schütz: Cluster surface interactions: Small Fe clusters driven nonmagnetic on graphite. In: Chemical Physics Letters 392, 4-6, 498-502 (2004).
doi: 10.1016/j.cplett.2004.06.004
Goering, E. J., S. Gold and A. Bayer: Ground-State-Moment-Analysis: A quantitative tool for X-ray magnetic circular dichroism analysis for 3d transition metals. In: Applied Physics A 78, 855-865 (2004).
Weigand, F., S. Gold, A. Schmid, J. Geissler, E. Goering, K. Dorr, G. Krabbes and K. Ruck: Antiparallel ruthenium coupling in doped La1.2Sr1.8Mn2-xRuxO7. In: Applied Physics Letters 81, 11, 2035-2037 (2002).
http://edoc.mpg.de
The Max Planck Society does not take any responsibility for the content of this export.