Zeitschriftenartikel (90)

  1. 1.
    S. Muralidhar, J. Gräfe, Y.-C. Chen, M. Etter, G. Gregori, S. Ener, S. Sawatzki, K. Hono, O. Gutfleisch, H. Kronmüller, G. Schütz, and E. J. Goering, "Temperature-dependent first-order reversal curve measurements on unusually hard magnetic low-temperature phase of MnBi," Physical Review B 95 (2), 024413 (2017).
  2. 2.
    P. Audehm, M. Schmidt, S. Brück, T. Tietze, J. Gräfe, S. Macke, G. Schütz, and E. Goering, "Pinned orbital moments - A new contribution to magnetic anisotropy," Scientific Reports 6, 25517 (2016).
  3. 3.
    Y.-C. Chen, Z. Wang, A. Leineweber, J. Baier, T. Tietze, F. Phillipp, G. Schütz, and E. Goering, "Effect of surface configurations on the room-temperature magnetism of pure ZnO," Journal of Materials Chemistry C 4 (19), 4166-4175 (2016).
  4. 4.
    Y.-C. Chen, S. Sawatzki, S. Ener, H. Sepehri-Amin, A. Leineweber, G. Gregori, F. Qu, S. Muralidhar, T. Ohkubo, K. Hono, O. Gutfleisch, H. Kronmüller, G. Schütz, and E. Goering, "On the synthesis and microstructure analysis of high performance MnBi," AIP Advances 6 (12), 125301 (2016).
  5. 5.
    J. Gräfe, M. Weigand, C. Stahl, Nick-André Träger, M. Kopp, G. Schütz, E. J. Goering, F. Haering, P. Ziemann, and U. Wiedwald, "Combined first-order reversal curve and x-ray microscopy investigation of magnetization reversal mechanisms in hexagonal antidot lattices," Physical Review B 93 (1), 014406 (2016).
  6. 6.
    J. Gräfe, M. Weigand, Nick-André Träger, G. Schütz, E. J. Goering, M. Skripnik, U. Nowak, F. Haering, P. Ziemann, and U. Wiedwald, "Geometric control of the magnetization reversal in antidot lattices with perpendicular magnetic anisotropy," Physical Review B 93 (10), 104421 (2016).
  7. 7.
    J. Gräfe, G. Schütz, and E. J. Goering, "Coercivity scaling in antidot lattices in Fe, Ni, and NiFe thin films," Journal of Magnetism and Magnetic Materials 419, 517-520 (2016).
  8. 8.
    B. B. Straumal, S. G. Protasova, A. A. Mazilkin, E. Goering, G. Schütz, P. B. Straumal, and B. Baretzky, "Ferromagnetic behaviour of ZnO: the role of grain boundaries," Beilstein Journal of Nanotechnology 7, 1936-1947 (2016).
  9. 9.
    U. Wiedwald, J. Gräfe, K. M. Lebecki , M. Skripnik, F. Haering, G. Schütz, P. Ziemann, E. Goering, and U. Nowak, "Magnetic switching of nanoscale antidot lattices," Beilstein Journal of Nanotechnology 7, 733-750 (2016).
  10. 10.
    Y.-C. Chen, G. Gregori, A. Leineweber, F. Qu, C.-C. Chen, T. Tietze, H. Kronmüller, G. Schütz, and E. Goering, "Unique high-temperature performance of highly consensed MnBi permanent magnets," Scripta Materialia 107, 131-135 (2015).
  11. 11.
    J. Gräfe, F. Haering, T. Tietze, P. Audehm, M. Weigand, U. Wiedwald, P. Ziemann, P. Gawronski, G. Schütz, and E. J. Goering, "Perpendicular magnetisation from in-plane fields in nano-scaled antidot lattices," Nanotechnology 26 (22), 225203 (2015).
  12. 12.
    S. Krannich, Y. Sidis, D. Lamago, R. Heid, J.-M. Mignot, H. von Löhneysen, A. Ivanov, P. Steffens, T. Keller, L. Wang, E. Goering, and F. Weber, "Magnetic moments induce strong phonon renormalization in FeSi," Nature Communications 6, 8961 (2015).
  13. 13.
    N. Ohmer, B. Fenk, D. Samuelis, C.-C. Chen, J. Maier, M. Weigand, E. Goering, and G. Schütz, "Phase evolution in single-crystalline LiFePO4 followed by in situ scanning X-ray microscopy of a micrometre-sized battery," Nature Communications 6, 6045 (2015).
  14. 14.
    M. Schmidt, J. Gräfe, P. Audehm, F. Phillipp, G. Schütz, and E. Goering, "Preparation and characterisation of epitaxial Pt/Cu/FeMn/Co thin films on (100)-oriented MgO single crystals," Physica Status Solidi A 212 (10), 2114-2123 (2015).
  15. 15.
    Soltan Soltan, J. Albrecht, E. Goering, G. Schütz, L. Mustafa, B. Keimer, and H.-U. Habermeier, "Preparation of a ferromagnetic barrier in YBa2Cu3O7-delta thinner than the coherence length," Journal of Applied Physics 118 (22), 223902 (2015).
  16. 16.
    B. B. Straumal, A. A. Mazilkin, S. G. Protasova, S. V. Stakhanova, P. B. Straumal, M. F. Bulatov, G. Schütz, T. Tietze, E. Goering, and B. Baretzky, "Grain boundaries as a source of ferromagnetism and increased solubility of Ni in nanograined ZnO," Reviews on Advanced Materials Science 41, 61-71 (2015).
  17. 17.
    T. Tietze, P. Audehm, Y.-C. Chen, G. Schütz, B. B. Straumal, S. G. Protasova, A. A. Mazilkin, P. B. Straumal, T. Prokscha, H. Luetkens, Z. Salman, A. Suter, B. Baretzky, K. Fink, W. Wenzel, D Danilov, and E. Goering, "Interfacial dominated ferromagnetism in nanograined ZnO: a μSR and DFT study," Scientific Reports 5, 8871-8876 (2015).
  18. 18.
    M. Wu, E. Benckiser, P. Audehm, E. Goering, P. Wochner, G. Christiani, G. Logvenov, H.-U. Habermeier, and B. Keimer, "Orbital reflectometry of PrNiO3/PrAlO3 superlattices," Physical Review B 91 (19), 195130 (2015).
  19. 19.
    J. Bertinshaw, S. Brück, D. Lott, H. Fritzsche, Y. Khaydukov, O Soltwedel, T. Keller, E. Goering, P. Audehm, D. L. Cortie, W. D. Hutchison, Q. M. Ramasse, M Arredondo, R. Maran, V. Nagarajan, F. Klose, and C. Ulrich, "Element-specific depth profile of magnetism and stoichiometry at the La0.67Sr0.33MnO3/BiFeO3 interface," Physical Review B 90 (4), 041113(R) (2014).
  20. 20.
    J. Gräfe, M. Schmidt, P. Audehm, G. Schütz, and E. Goering, "Application of magneto-optical Kerr effect to first-order reversal curve measurements," Review of Scientific Instruments 85, 023901 (2014).
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